Indian Streams Research Journal

Volume : IV, Issue : VII, August - 2014

INDUCED GENETIC VARIABILITY FOR SEED GERMINATION AND OTHER YIELD PARAMETERS IN KIDNEY BEAN (PHASEOLUS VULGARIS L.).

Asad Ali , Bhanita Talukdar and Bhojaraja Naik

DOI : 10.9780/22307850, By : Laxmi Book Publication

Abstract :

Kidney bean (Phaseolus vulgaris L.) is the most ancient cultivated crops among the legumes. It is commonly used for human nutrition, animal feed and soil fertility. Seeds of two local dwarf varieties of kidney bean, B1-Local and B2-Local were subjected to different concentrations (0.1%, 0.3 %, 0.5%, 1.0% and 1.5%) of sodium azide (SA). Effects of chemical mutagen were evaluated for seed germination, plant survival, plant height, number of branch per plant; number of leaves/plant in both the varieties. The mutagen treated seeds as well as the control of both the varieties were planted in the experimental field following randomized block design (RBD) layout to raise the first mutant (M1) generation. Sodium azide concentration at 1.0% and above was lethal for both the varieties. Seedling survival was highly reduced in both the varieties (upto 68.75%). Seedling height, number of leaves/plant and number of branch/plant showed inter and intra varietal differential response.

Keywords :

• kidney bean
• Sodium azide
• mutagen
• kidney bean
• Sodium azide
• mutagen

Article :

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References :

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53. World Appl Sci. J, 6:1589-1601
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63. barley shoot: Radiat Bot. 15:315-322.
64. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
65. World Appl Sci. J, 6:1589-1601
66. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
67. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
68. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
69. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
70. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
71. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
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73. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
74. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
75. barley shoot: Radiat Bot. 15:315-322.
76. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
77. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
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79. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
80. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
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82. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
83. World Appl Sci. J, 6:1589-1601
84. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
85. Agricul Sci. 1(1): 9-11
86. World Appl Sci. J, 6:1589-1601
87. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
88. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
89. barley shoot: Radiat Bot. 15:315-322.
90. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
91. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
92. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
93. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
94. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
95. barley shoot: Radiat Bot. 15:315-322.
96. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
97. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
98. World Appl Sci. J, 6:1589-1601
99. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
100. Mill). Sci. Wor.l J. 2(4): 9-12.
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102. Mill). Sci. Wor.l J. 2(4): 9-12.
103. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
104. World Appl Sci. J, 6:1589-1601
105. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
106. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
107. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
108. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
109. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
110. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
111. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
112. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
113. Agricul Sci. 1(1): 9-11
114. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
115. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
116. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
117. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
118. United Nations, Rome, p11-12.
119. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
120. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
121. plants: World J of Agri Sci. 7(1):104-108.
122. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
123. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
124. Mill). Sci. Wor.l J. 2(4): 9-12.
125. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
126. Mill). Sci. Wor.l J. 2(4): 9-12.
127. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
128. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
129. United Nations, Rome, p11-12.
130. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
131. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
132. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
133. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
134. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
135. United Nations, Rome, p11-12.
136. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
137. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
138. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
139. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
140. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
141. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
142. barley shoot: Radiat Bot. 15:315-322.
143. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
144. Mill). Sci. Wor.l J. 2(4): 9-12.
145. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
146. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
147. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
148. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
149. Mill). Sci. Wor.l J. 2(4): 9-12.
150. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
151. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
152. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
153. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
154. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
155. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
156. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
157. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
158. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
159. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
160. barley shoot: Radiat Bot. 15:315-322.
161. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
162. Exp. Bot, 60:2817-2825.
163. Euphytica, 135:187-204
164. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
165. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
166. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
167. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
168. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
169. United Nations, Rome, p11-12.
170. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
171. barley shoot: Radiat Bot. 15:315-322.
172. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
173. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
174. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
175. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
176. United Nations, Rome, p11-12.
177. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
178. Exp. Bot, 60:2817-2825.
179. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
180. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
181. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
182. barley shoot: Radiat Bot. 15:315-322.
183. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
184. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
185. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
186. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
187. Mill). Sci. Wor.l J. 2(4): 9-12.
188. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
189. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
190. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
191. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
192. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
193. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
194. Euphytica, 135:187-204
195. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
196. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
197. barley shoot: Radiat Bot. 15:315-322.
198. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
199. Mill). Sci. Wor.l J. 2(4): 9-12.
200. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
201. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
202. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
203. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
204. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
205. United Nations, Rome, p11-12.
206. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
207. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
208. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
209. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
210. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
211. Exp. Bot, 60:2817-2825.
212. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
213. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
214. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
215. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
216. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
217. Mill). Sci. Wor.l J. 2(4): 9-12.
218. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
219. Mill). Sci. Wor.l J. 2(4): 9-12.
220. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
221. Euphytica, 135:187-204
222. Agricul Sci. 1(1): 9-11
223. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
224. World Appl Sci. J, 6:1589-1601
225. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
226. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
227. plants: World J of Agri Sci. 7(1):104-108.
228. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
229. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
230. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
231. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
232. Exp. Bot, 60:2817-2825.
233. Agricul Sci. 1(1): 9-11
234. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
235. plants: World J of Agri Sci. 7(1):104-108.
236. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
237. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
238. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
239. Mill). Sci. Wor.l J. 2(4): 9-12.
240. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
241. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
242. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
243. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
244. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
245. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
246. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
247. plants: World J of Agri Sci. 7(1):104-108.
248. Exp. Bot, 60:2817-2825.
249. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
250. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
251. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
252. Exp. Bot, 60:2817-2825.
253. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
254. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
255. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
256. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
257. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
258. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
259. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
260. barley shoot: Radiat Bot. 15:315-322.
261. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
262. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
263. plants: World J of Agri Sci. 7(1):104-108.
264. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
265. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
266. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
267. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
268. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
269. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
270. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
271. United Nations, Rome, p11-12.
272. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
273. barley shoot: Radiat Bot. 15:315-322.
274. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
275. Exp. Bot, 60:2817-2825.
276. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
277. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
278. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
279. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
280. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
281. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
282. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
283. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
284. Mill). Sci. Wor.l J. 2(4): 9-12.
285. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
286. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
287. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
288. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
289. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
290. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
291. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
292. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
293. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
294. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
295. Agricul Sci. 1(1): 9-11
296. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
297. Euphytica, 135:187-204
298. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
299. Mill). Sci. Wor.l J. 2(4): 9-12.
300. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
301. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
302. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
303. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
304. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
305. plants: World J of Agri Sci. 7(1):104-108.
306. Mill). Sci. Wor.l J. 2(4): 9-12.
307. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
308. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
309. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
310. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
311. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
312. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
313. Mill). Sci. Wor.l J. 2(4): 9-12.
314. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
315. Euphytica, 135:187-204
316. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
317. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
318. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
319. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
320. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
321. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
322. Mill). Sci. Wor.l J. 2(4): 9-12.
323. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
324. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
325. Mill). Sci. Wor.l J. 2(4): 9-12.
326. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
327. Euphytica, 135:187-204
328. World Appl Sci. J, 6:1589-1601
329. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
330. Mill). Sci. Wor.l J. 2(4): 9-12.
331. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
332. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
333. Euphytica, 135:187-204
334. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
335. plants: World J of Agri Sci. 7(1):104-108.
336. World Appl Sci. J, 6:1589-1601
337. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
338. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
339. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
340. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
341. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
342. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
343. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
344. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
345. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
346. barley shoot: Radiat Bot. 15:315-322.
347. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
348. World Appl Sci. J, 6:1589-1601
349. Mill). Sci. Wor.l J. 2(4): 9-12.
350. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
351. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
352. barley shoot: Radiat Bot. 15:315-322.
353. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
354. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
355. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
356. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
357. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
358. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
359. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
360. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
361. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
362. United Nations, Rome, p11-12.
363. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
364. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
365. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
366. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
367. plants: World J of Agri Sci. 7(1):104-108.
368. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
369. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
370. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
371. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
372. barley shoot: Radiat Bot. 15:315-322.
373. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
374. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
375. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
376. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
377. plants: World J of Agri Sci. 7(1):104-108.
378. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
379. World Appl Sci. J, 6:1589-1601
380. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
381. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
382. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
383. barley shoot: Radiat Bot. 15:315-322.
384. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
385. Euphytica, 135:187-204
386. Euphytica, 135:187-204
387. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
388. barley shoot: Radiat Bot. 15:315-322.
389. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
390. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
391. Agricul Sci. 1(1): 9-11
392. Euphytica, 135:187-204
393. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
394. barley shoot: Radiat Bot. 15:315-322.
395. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
396. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
397. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
398. Mill). Sci. Wor.l J. 2(4): 9-12.
399. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
400. Euphytica, 135:187-204
401. Mill). Sci. Wor.l J. 2(4): 9-12.
402. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
403. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
404. Mill). Sci. Wor.l J. 2(4): 9-12.
405. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
406. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
407. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
408. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
409. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
410. United Nations, Rome, p11-12.
411. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
412. Mill). Sci. Wor.l J. 2(4): 9-12.
413. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
414. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
415. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
416. Mill). Sci. Wor.l J. 2(4): 9-12.
417. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
418. Mill). Sci. Wor.l J. 2(4): 9-12.
419. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
420. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
421. Euphytica, 135:187-204
422. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
423. barley shoot: Radiat Bot. 15:315-322.
424. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
425. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
426. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
427. World Appl Sci. J, 6:1589-1601
428. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
429. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
430. barley shoot: Radiat Bot. 15:315-322.
431. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
432. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
433. barley shoot: Radiat Bot. 15:315-322.
434. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
435. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
436. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
437. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
438. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
439. barley shoot: Radiat Bot. 15:315-322.
440. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
441. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
442. barley shoot: Radiat Bot. 15:315-322.
443. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
444. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
445. plants: World J of Agri Sci. 7(1):104-108.
446. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
447. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
448. plants: World J of Agri Sci. 7(1):104-108.
449. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
450. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
451. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
452. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
453. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
454. Exp. Bot, 60:2817-2825.
455. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
456. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
457. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
458. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
459. United Nations, Rome, p11-12.
460. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
461. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
462. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
463. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
464. Euphytica, 135:187-204
465. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
466. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
467. Agricul Sci. 1(1): 9-11
468. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
469. barley shoot: Radiat Bot. 15:315-322.
470. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
471. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
472. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
473. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
474. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
475. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
476. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
477. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
478. Euphytica, 135:187-204
479. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
480. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
481. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
482. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
483. plants: World J of Agri Sci. 7(1):104-108.
484. World Appl Sci. J, 6:1589-1601
485. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
486. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
487. plants: World J of Agri Sci. 7(1):104-108.
488. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
489. plants: World J of Agri Sci. 7(1):104-108.
490. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
491. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
492. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
493. barley shoot: Radiat Bot. 15:315-322.
494. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
495. World Appl Sci. J, 6:1589-1601
496. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
497. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
498. plants: World J of Agri Sci. 7(1):104-108.
499. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
500. barley shoot: Radiat Bot. 15:315-322.
501. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
502. World Appl Sci. J, 6:1589-1601
503. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
504. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
505. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
506. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
507. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
508. Mill). Sci. Wor.l J. 2(4): 9-12.
509. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
510. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
511. World Appl Sci. J, 6:1589-1601
512. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
513. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
514. United Nations, Rome, p11-12.
515. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
516. Mill). Sci. Wor.l J. 2(4): 9-12.
517. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
518. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
519. barley shoot: Radiat Bot. 15:315-322.
520. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
521. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
522. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
523. United Nations, Rome, p11-12.
524. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
525. Exp. Bot, 60:2817-2825.
526. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
527. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
528. Agricul Sci. 1(1): 9-11
529. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
530. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
531. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
532. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
533. United Nations, Rome, p11-12.
534. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
535. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
536. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
537. plants: World J of Agri Sci. 7(1):104-108.
538. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
539. Euphytica, 135:187-204
540. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
541. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
542. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
543. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
544. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
545. Mill). Sci. Wor.l J. 2(4): 9-12.
546. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
547. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
548. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
549. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
550. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
551. barley shoot: Radiat Bot. 15:315-322.
552. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
553. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
554. United Nations, Rome, p11-12.
555. Mill). Sci. Wor.l J. 2(4): 9-12.
556. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
557. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
558. barley shoot: Radiat Bot. 15:315-322.
559. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
560. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
561. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
562. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
563. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
564. Agricul Sci. 1(1): 9-11
565. World Appl Sci. J, 6:1589-1601
566. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
567. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
568. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
569. Agricul Sci. 1(1): 9-11
570. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
571. plants: World J of Agri Sci. 7(1):104-108.
572. plants: World J of Agri Sci. 7(1):104-108.
573. barley shoot: Radiat Bot. 15:315-322.
574. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
575. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
576. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
577. Euphytica, 135:187-204
578. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
579. barley shoot: Radiat Bot. 15:315-322.
580. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
581. Exp. Bot, 60:2817-2825.
582. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
583. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
584. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
585. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
586. United Nations, Rome, p11-12.
587. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
588. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
589. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
590. Exp. Bot, 60:2817-2825.
591. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
592. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
593. United Nations, Rome, p11-12.
594. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
595. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
596. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
597. Mill). Sci. Wor.l J. 2(4): 9-12.
598. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
599. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
600. Mill). Sci. Wor.l J. 2(4): 9-12.
601. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
602. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
603. United Nations, Rome, p11-12.
604. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
605. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
606. barley shoot: Radiat Bot. 15:315-322.
607. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
608. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
609. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
610. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
611. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
612. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
613. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
614. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
615. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
616. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
617. World Appl Sci. J, 6:1589-1601
618. Mill). Sci. Wor.l J. 2(4): 9-12.
619. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
620. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
621. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
622. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
623. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
624. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
625. barley shoot: Radiat Bot. 15:315-322.
626. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
627. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
628. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
629. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
630. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
631. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
632. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
633. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
634. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
635. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
636. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
637. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
638. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
639. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
640. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
641. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
642. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
643. Mill). Sci. Wor.l J. 2(4): 9-12.
644. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
645. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
646. plants: World J of Agri Sci. 7(1):104-108.
647. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
648. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
649. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
650. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
651. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
652. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
653. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
654. barley shoot: Radiat Bot. 15:315-322.
655. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
656. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
657. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
658. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
659. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
660. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
661. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
662. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
663. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
664. barley shoot: Radiat Bot. 15:315-322.
665. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
666. Agricul Sci. 1(1): 9-11
667. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
668. barley shoot: Radiat Bot. 15:315-322.
669. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
670. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
671. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
672. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
673. Agricul Sci. 1(1): 9-11
674. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
675. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
676. Mill). Sci. Wor.l J. 2(4): 9-12.
677. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
678. Euphytica, 135:187-204
679. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
680. Euphytica, 135:187-204
681. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
682. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
683. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
684. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
685. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
686. United Nations, Rome, p11-12.
687. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
688. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
689. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
690. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
691. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
692. Mill). Sci. Wor.l J. 2(4): 9-12.
693. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
694. Agricul Sci. 1(1): 9-11
695. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
696. barley shoot: Radiat Bot. 15:315-322.
697. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
698. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
699. barley shoot: Radiat Bot. 15:315-322.
700. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
701. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
702. Mill). Sci. Wor.l J. 2(4): 9-12.
703. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
704. Euphytica, 135:187-204
705. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
706. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
707. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
708. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
709. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
710. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
711. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
712. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
713. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
714. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
715. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
716. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
717. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
718. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
719. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
720. barley shoot: Radiat Bot. 15:315-322.
721. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
722. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
723. Euphytica, 135:187-204
724. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
725. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
726. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
727. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
728. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
729. barley shoot: Radiat Bot. 15:315-322.
730. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
731. Mill). Sci. Wor.l J. 2(4): 9-12.
732. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
733. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
734. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
735. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
736. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
737. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
738. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
739. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
740. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
741. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
742. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
743. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
744. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
745. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
746. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
747. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
748. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
749. barley shoot: Radiat Bot. 15:315-322.
750. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
751. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
752. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
753. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
754. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
755. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
756. plants: World J of Agri Sci. 7(1):104-108.
757. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
758. barley shoot: Radiat Bot. 15:315-322.
759. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
760. Mill). Sci. Wor.l J. 2(4): 9-12.
761. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
762. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
763. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
764. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
765. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
766. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
767. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
768. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
769. Euphytica, 135:187-204
770. Mill). Sci. Wor.l J. 2(4): 9-12.
771. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
772. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
773. Mill). Sci. Wor.l J. 2(4): 9-12.
774. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
775. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
776. United Nations, Rome, p11-12.
777. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
778. Exp. Bot, 60:2817-2825.
779. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
780. Mill). Sci. Wor.l J. 2(4): 9-12.
781. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
782. Mill). Sci. Wor.l J. 2(4): 9-12.
783. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
784. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
785. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
786. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
787. barley shoot: Radiat Bot. 15:315-322.
788. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
789. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
790. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
791. barley shoot: Radiat Bot. 15:315-322.
792. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
793. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
794. plants: World J of Agri Sci. 7(1):104-108.
795. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
796. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
797. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
798. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
799. Mill). Sci. Wor.l J. 2(4): 9-12.
800. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
801. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
802. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
803. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
804. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
805. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
806. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
807. barley shoot: Radiat Bot. 15:315-322.
808. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
809. barley shoot: Radiat Bot. 15:315-322.
810. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
811. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
812. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
813. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
814. barley shoot: Radiat Bot. 15:315-322.
815. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
816. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
817. United Nations, Rome, p11-12.
818. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
819. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
820. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
821. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
822. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
823. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
824. Mill). Sci. Wor.l J. 2(4): 9-12.
825. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
826. Agricul Sci. 1(1): 9-11
827. barley shoot: Radiat Bot. 15:315-322.
828. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
829. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
830. barley shoot: Radiat Bot. 15:315-322.
831. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
832. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
833. plants: World J of Agri Sci. 7(1):104-108.
834. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
835. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
836. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
837. Euphytica, 135:187-204
838. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
839. barley shoot: Radiat Bot. 15:315-322.
840. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
841. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
842. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
843. Agricul Sci. 1(1): 9-11
844. Euphytica, 135:187-204
845. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
846. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
847. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
848. Exp. Bot, 60:2817-2825.
849. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
850. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
851. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
852. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
853. Snehal P. and Madhukar, K. (2012) Biological Effect of Sodium azide and Colchicine on Seed Germination and
854. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
855. barley shoot: Radiat Bot. 15:315-322.
856. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
857. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
858. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
859. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
860. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
861. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
862. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
863. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
864. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
865. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
866. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
867. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
868. plants: World J of Agri Sci. 7(1):104-108.
869. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
870. barley shoot: Radiat Bot. 15:315-322.
871. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
872. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
873. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
874. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
875. Mill). Sci. Wor.l J. 2(4): 9-12.
876. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
877. Agricul Sci. 1(1): 9-11
878. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
879. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
880. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
881. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
882. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
883. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
884. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
885. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
886. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
887. plants: World J of Agri Sci. 7(1):104-108.
888. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
889. Mill). Sci. Wor.l J. 2(4): 9-12.
890. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
891. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
892. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
893. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
894. World Appl Sci. J, 6:1589-1601
895. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
896. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
897. United Nations, Rome, p11-12.
898. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
899. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
900. Agricul Sci. 1(1): 9-11
901. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
902. plants: World J of Agri Sci. 7(1):104-108.
903. W., Al-Yassin, A., Quabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. J.
904. United Nations, Rome, p11-12.
905. Srivastava, C.P., Singh A.K., Singh V.K. and Sanjeev, K. (2008) Synergistic effect of sodium azide on gammairradiated
906. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
907. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
908. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
909. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
910. barley shoot: Radiat Bot. 15:315-322.
911. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
912. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
913. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
914. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
915. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
916. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
917. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
918. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
919. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
920. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
921. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
922. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
923. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
924. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
925. barley shoot: Radiat Bot. 15:315-322.
926. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
927. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
928. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
929. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
930. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
931. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
932. barley shoot: Radiat Bot. 15:315-322.
933. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
934. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
935. Mill). Sci. Wor.l J. 2(4): 9-12.
936. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
937. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
938. Agricul Sci. 1(1): 9-11
939. Agricul Sci. 1(1): 9-11
940. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
941. Agricul Sci. 1(1): 9-11
942. World Appl Sci. J, 6:1589-1601
943. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
944. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
945. plants: World J of Agri Sci. 7(1):104-108.
946. World Appl Sci. J, 6:1589-1601
947. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
948. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
949. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
950. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
951. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
952. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
953. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
954. barley shoot: Radiat Bot. 15:315-322.
955. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
956. Adamu A.K. and Aliyu H. (2007) Morphological effects of sodium azide on tomato (Lycopersicon esculentum
957. plants: World J of Agri Sci. 7(1):104-108.
958. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
959. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
960. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
961. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
962. Ahloowalia B.S., Maluszynski, M. and Nichterlein, K. (2004) Global impact of mutation-derived varieties,
963. Kleinhofs, A., Warner, R.L., Muehlbauer, F.J. and Nilan, R.A. (1978b) Induction and selection of specific gene
964. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
965. Euphytica, 135:187-204
966. World Appl Sci. J, 6:1589-1601
967. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
968. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
969. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
970. moschatus L.): Inte J Pharmacy & Pharmaceutical Sci. 3(5): 484-486.
971. Pearson O.W., Nillan R.A. and Sander C. (1975) The effect of sodium azide on cell process es in the embryonic
972. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
973. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
974. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
975. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
976. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
977. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
978. Mill). Sci. Wor.l J. 2(4): 9-12.
979. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
980. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
981. Shu, Q.Y. (ed.), (2009) Induced Plant Mutations in the Genomics Era. Food and Agriculture Organization of the
982. Sood, S., Awasthi, C.P. and Singh, N. (2003) Biochemical Evaluation of Promising Rajmash ( Phaseolus vulgaris
983. World Appl Sci. J, 6:1589-1601
984. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
985. Mill). Sci. Wor.l J. 2(4): 9-12.
986. Singh, S.P. (2001) Broadening the genetic base of common bean cultivars; Crop Science. 41(41): 1659-1675,
987. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
988. barley shoot: Radiat Bot. 15:315-322.
989. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
990. mutations in Hordeum and Pisum: Mutation Research. 51:29-35.
991. Euphytica, 135:187-204
992. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
993. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
994. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
995. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
996. Exp. Bot, 60:2817-2825.
997. Al-Qurainy F. and Khan, S. (2009) Mutagenic effects of sodium azide and its application in crop improvement.
998. Parry, M.A., Madgwick, P.J., Bayon, C., Tearall, K., Hemandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada,
999. Callus Induction in Stevia Rebaudiana: Asian J Exp Biol Sci. 3(1):93-98.
1000. World Appl Sci. J, 6:1589-1601
1001. Ashish, R., Warghat, N., Rampure, H. and Prashant W. (2011) Effect of sodium azide and gamma rays treatments
1002. Gaibriyal, M.L., Bini, T. and Sapna, S.L. (2009) Mutagenic Sensitivity in Early Generation in Black Gram. Asian
1003. parameters in cowpea (Vigna unguiculata (L) Walp): Global J Pure Appl Sci. 11(3):327-330.
1004. barley shoot: Radiat Bot. 15:315-322.
1005. seeds of peas (Pisum sativum L): Veg Sci. 35(2):127-131.
1006. on percentage germination, survival, morphological variation and chlorophyll mutation in musk okra (Abelmoschus
1007. Rajani P., Vineeta D. and Chaudhary B.R. (2011) Comparative spectrum of sodium azide responsiveness in
1008. L.) genotypes of Himachal Pradesh, , Himachal Journal of Agricultural Research, 29 (1&2) : 65-69
1009. plants: World J of Agri Sci. 7(1):104-108.
1010. Mensah, J.K., Akomeah, P.A. and Ekpekurede, E.O. (2005) Gamma irradiation induced variation of yield
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