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作物学报 ›› 2013, Vol. 39 ›› Issue (06): 1127-1133.doi: 10.3724/SP.J.1006.2013.01127

• 研究简报 • 上一篇    下一篇

花生种间杂种胚胎发育及内源激素变化

张新友*,徐静,汤丰收,董文召,臧秀旺,张忠信   

  1. 1 河南省农业科学院经济作物研究所 / 农业部黄淮海油料作物重点实验室 / 河南省油料作物遗传改良重点实验室, 河南郑州 450002
  • 收稿日期:2012-11-17 修回日期:2013-01-15 出版日期:2013-06-12 网络出版日期:2013-02-19
  • 通讯作者: 张新友, E-mail: haasz@sohu.com, Tel: 0371-65729560
  • 基金资助:

    本研究由河南省创新人才计划(104200510003)与河南省重大科技专项(111100110200)资助。

Embryonic Development and Changes of Endogenous Hormones in Interspecific Hybrids between Peanut (A. hypogaea L.) and Wild Arachis Species

ZHANG Xin-You,XU Jing,TANG Feng-Shou,DONG Wen-Zhao,ZANG Xiu-Wang,ZHANG Zhong-Xin   

  1. Industrial Crops Research Institute, Henan Academy of Agricultural Sciences / Key Laboratory of Oil Crops in Huanghuaihai Plains, Ministry of Agriculture / Henan Provincial Key Laboratory for Oil Crops Improvement, Zhengzhou 450002, China
  • Received:2012-11-17 Revised:2013-01-15 Published:2013-06-12 Published online:2013-02-19
  • Contact: 张新友, E-mail: haasz@sohu.com, Tel: 0371-65729560

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摘要:

以花生栽培品种豫花15为母本分别与野生种A. correntinaA. macedoi杂交,以栽培品种间杂交组合豫花15×白沙1016为对照,采用石蜡切片技术观察花生杂种胚胎发育进程,酶联免疫吸附分析法(ELISA)测定花生杂种胚胎内源激素含量, 分析胚胎发育进程与胚胎内源激素含量的关系。结果显示,3个杂交组合的下针率无明显差异,表明栽培种与2个野生种杂交不存在受精前障碍;与对照相比,豫花15×A. correntina表现杂交可亲和,其胚胎发育中激素含量的变化与对照组合基本一致;而豫花15×A. macedoi杂交授粉后12 d内胚胎发育基本正常,17~27 d发育缓慢,之后珠被迅速向内增生抑制了胚的进一步发育并最终败育,在同一时期的杂种胚胎中,3-吲哚乙酸(IAA)、赤霉素(GA3)和玉米素核苷+二氢玉米素核苷(ZR+DHZR)等促进生长的激素维持在较低的水平,而脱落酸(ABA)含量以及脱落酸与某一促进生长激素或3类促进生长激素之和的比值保持了较高的水平,推测可能是激素代谢的失衡导致种间杂种胚胎的败育。用IAA、激动素(KT)单独或混合处理不亲和组合豫花15×A. macedoi杂交授粉后的果针基部表明,外施促进生长的激素能够明显增加胚珠的长度,一定程度上验证了上述推测。

关键词: 花生属, 花生野生种, 种间杂交, 胚胎发育, 内源激素

Abstract:

The peanut cultivar Yuhua 15 was used as female parent to cross with wild species A. correntina and A. macedoi, respectively, with intervarietal cross Yuhua 15 × Baisha 1016 as check. There were no significant differences observed in pegging percentage among all the crosses. It indicated normal fertilization in the interspecific crosses. Embryo development was observed through paraffin sections, and contents of endogenous hormones including IAA, GA3, ZR+DHZR, and ABA in the developing embryos of hybrids were determined with ELISA. In comparison with normal seed development of Yuhua 15×Baisha 1016 and Yuhua 15×A. correntina, Yuhua 15×A. macedoi was incompatible due to a deterred embryo development at approximately 12–17 days after pollination followed by the hyperplasia of integument into the embryo sac which suppressed further development of the embryo and finally resulted in abortion. Compared with two compatible crosses, the ABA content and ratios of ABA to total of other auxin in developing embryos of cross (Yuhua 15×A. macedoi) were relatively higher at the early development stage, while the contents of IAA, GA3, and ZR+DHZR remained at a relatively lower level, which speculates on that abnormal hormone activities may be an important reason leading to the abortion of hybrid embryos. Peg bases of Yuhua15×A. macedoi were treated with IAA, KT, or mixture of the two, showing that the exogenous hormones can increase the length of ovule.

Key words: Peanut, Arachis, Interspecific hybrid, Embryonic development, Endogenous hormones

[1]Wan S-B(万书波). Peanut cultivation in China (中国花生栽培学). Shanghai: Shanghai Scientific & Technical Publishers, 2003. pp 65–67 (in Chinese)



[2]Krapovickas A, Gregory W C. Taxonomy of the genus Arachis (Leguminosae). Bonplandia, 1994, 8: 1–186



[3]Weng Y-J(翁跃进), Zhou R(周蓉). Different types of Arachis hypogaea. L and wild species hybridization compatibility study. Oil Crops China (中国油料), 1986, 3: 8–15 (in Chinese)



[4]Zhang X-Y(张新友). Utilization of wild species in the genus Arachis for the improvement of the cultivated groundnut I: resistance to groundnut rust and leaf spots. Acta Agric Boreali-Sin (华北农学报), 1991, 6(4): 30–35 (in Chinese with English abstract)



[5]Singh A K, Moss J P. Utilization of wild relatives in genetic improvement of Arachis hypogaea L.: 5. Genome analysis in section Arachis and its implications in gene transfer. Theor Appl Genet, 1984, 68: 355–364



[6]Zhou R(周蓉), Chen X-M(陈小媚), Qu Z(瞿桢), Wu X-Y(吴新镛), Duan N-X(段乃雄). Interspecific hybridization in genus Arachis and techniques for embryo rescue. Oil Crops China (中国油料), 1997, 19(1): 19–27 (in Chinese with English abstract)



[7]Amir J. A study on the reproductive stage of the groundnut, Arachis hypogaea L. induction of pod setting in the upper-nodal gynophores. Ann Bot, 1969, 33: 333–338



[8]Gregory M P, Gregory W C. Exotic germ plasm of Arachis L. interspecific hybrids. J Hered, 1979, 70: 185–193



[9]Stalker H T, Eweda M A. Ovule and embryo culture of Arachis hypogaea L. and interspecific hybrids. Peanut Sci, 1988, 15: 98–104



[10]Zhang X Y, Liu E S. Crossability between Arachis hypogaea L. and Erectoides species A. sp. 9990 GKP. Acta Agric Boreali-Sin, 1993, 8(suppl): 16–20



[11]Johanson E L, Smith B W. Arachis hypogaea×A. diogoi embryo and seed failure. Am J Bot, 1956, 43: 250–258



[12]Ketring D L, Schubert A M. Growth, flowering and fruiting responses of peanut plants to ethrel. Crop Sci, 1980, 20: 327–329



[13]Feng Q-L(冯启理), Pan R-C(潘瑞炽). The influence of NAA, GA3, and BA on pod formation of peanut ovary cultured in vitro. Acta Phytophysiol Sin (植物生理学报), 1989, 15(2): 111–116 (in Chinese with English abstract)



[14]Zhang H-Y(张海燕), Wang M-L(王铭伦). Plant growth regulators and the growth of peanut. J Laiyang Agric Coll (莱阳农学院学报), 2002, 19(1): 30–33 (in Chinese)



[15]Li H-P(李和平). Plant Microtechnique (植物显微技术), 2nd edn. Beijing: Science Press, 2009. pp 9–46 (in Chinese)



[16]Wang M-L(王铭伦), He Z-P(何钟佩), Li P-M(李丕明). Changes of ethylene, CTK and ABA levels during the development of peanut pods and seeds. J Laiyang Agric Coll (莱阳农学院学报), 1992, 9(1): 1–5 (in Chinese with English abstract)



[17]Feng Q-L(冯启理), Pan R-C(潘瑞炽). Changes of auxin, gibberellin and ethylene during pod development in peanut. Plant Physiol Commun (植物生理学通讯), 1989, (2): 25–28 (in Chinese)



[18]Leopold A C, Nooden L O. Hormonal regulatory system in plants. In: Scott T K ed. Hormonal Regulation of Development II. Berlin: Springer-Verlag, 1984. pp 10–11



[19]Franklin P G, Pearce R B, Roger L M. Physiology of Crop Plants. Ames, Iowa: Iowa State University Press, 1985. pp 201–242



[20]Chen W(陈伟), Lü L-X(吕柳新), Ye C-L(叶陈亮), Ye M-Z(叶明志). Relationship between embryo abortion and endogenous hormones in litchi ovules. Chin J Trop Crops (热带作物学报), 2000, 21(3): 34–38 (in Chinese with English abstract)



[21]Feng Q L, Pattee H E, Stalkef H T. in vitro reproductive development of peanut, Arachis hypogaea L., as influenced by plant growth regulators, sucrose and pH. Peanut Sci, 1995, 22: 135–141



[22]Shen F-Y(申馥玉), Zhu Z-X(朱忠学), Wang C-T(王传堂), Lü Z-Z(吕祝章), Duan S-F(段淑芬). In vitro peg culture to overcome peanut interspecific incompatibility. Sci Agric Sin (中国农业科学), 1991, 25(5): 31–35 (in Chinese with English abstract)



[23]Qu Y-M(曲咏梅). Effect of hormone treatment on pod and ovule development of the incompatible interspecific cross in Arachis. J Laiyang Agric Coll (莱阳农学院学报), 1992, 9(1): 27–32(in Chinese with English abstract)



[24]Zhou R(周蓉), Qu Z(瞿桢), Duan N-X(段乃雄), Wu X-Y(吴新镛). Effect of hormones on overcoming the incompatibility in interspecific crosses in genus Arachis. Oil Crops China (中国油料), 1994, 16(2): 4–6 (in Chinese with English abstract)
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