Srivastava Priyanka, Chaturvedi Rakhi
Department of Biotechnology, Indian Institute of Technology - Guwahati, Guwahati, 781 039, Assam, India.
Biotechnol Adv. 2008 Sep-Oct;26(5):482-91. doi: 10.1016/j.biotechadv.2008.05.006. Epub 2008 Jun 6.
Most, if not all, trees are outbreeding, highly heterozygous and undergo a long developmental period before reaching their reproductive stage. Classical breeding and cross-pollinating procedures are both unpredictable and time-consuming. In vitro androgenesis is, thus, the most prolific and desirable approach of haploid production. But various attempts to induce androgenic potential in the trees have met with rather limited success, as they ought to be extremely recalcitrant in culture. The success rate in this case is nowhere close to that achieved for some model species like Brassica and Nicotiana. Our review article intends to focus on the overview of androgenic process and all the major contributions till date on tree species with regard to this aspect. We wish to bring together in one place all the important variables used by different workers, that influence androgenic potential immensely like, stage of anther or microspore at culture, media composition, combinations and concentrations of growth regulators, and additives. This will prove to be a worthy guide to all the prospective workers in this area and in designing their experiments further.
大多数树木(即便不是全部)都是异花授粉的,高度杂合,并且在达到生殖阶段之前要经历很长的发育时期。传统育种和异花授粉程序既不可预测又耗时。因此,离体雄核发育是单倍体生产中最丰富且理想的方法。但是,在树木中诱导雄核发育潜力的各种尝试取得的成功相当有限,因为它们在培养中极其顽固。这种情况下的成功率远不及在一些模式物种(如芸苔属和烟草属)上所取得的成功率。我们的综述文章旨在聚焦于雄核发育过程的概述以及迄今为止在这方面对树木物种的所有主要贡献。我们希望将不同研究者使用的所有重要变量汇集在一起,这些变量极大地影响雄核发育潜力,例如培养时花药或小孢子的阶段、培养基成分、生长调节剂的组合和浓度以及添加剂。这将被证明对该领域所有未来的研究者以及进一步设计他们的实验是一个有价值的指南。
