Desai Parth, Gajera Bhavesh, Mankad Mounil, Shah Shikha, Patel Armi, Patil Ghanshyam, Narayanan Subhash, Kumar Nitish
Plant Tissue Culture Laboratory, Anand Agricultural University, Anand, 388110, Gujarat, India,
Mol Biol Rep. 2015 Aug;42(8):1265-73. doi: 10.1007/s11033-015-3867-9. Epub 2015 Mar 13.
Bamboo is one of the important plant for pulp, paper and charcoal industries. After China, India is the second largest bamboo reserve in Asia. Around the globe, wide genetic diversity of bamboo is present which serves as the base for selection and improvement. DNA based molecular markers appears to be a striking substitute for systematic assessment of the genetic diversity in conservation and genetic improvement of plants. DNA based molecular markers such as RAPD and ISSR were used to assess the genetic diversity in 13 bamboo genotypes. Total 120 RAPD and 63 ISSR primers were tested, of which only 42 polymorphic primers (30 RAPD and 12 ISSR), gave reproducible amplification profile and were used in this study. 30 RAPD primers yielded total 645 amplified fragments, of which 623 were polymorphic, and 20.76 polymorphic bands per primer were observed across 13 genotypes. 12 ISSR primers produced 246 amplified fragments, of which 241 were polymorphic, and 20.08 polymorphic bands per primer was observed across 13 different genotypes. The Jaccard's coefficient of RAPD, ISSR and pooled RAPD and ISSR dendrograms ranged from 0.26 to 0.83, 0.23 to 0.86 and 0.26 to 0.84 respectively. The present study found the large genetic diversity present between different elite genotypes of bamboo. Such investigation can deliver a well understanding of the available genotypes, which might be further exploited for the paper industry.
竹子是制浆、造纸和木炭行业的重要植物之一。仅次于中国,印度是亚洲第二大竹子储备国。在全球范围内,竹子具有广泛的遗传多样性,这为选择和改良提供了基础。基于DNA的分子标记似乎是系统评估植物遗传多样性以进行保护和遗传改良的显著替代方法。基于DNA的分子标记如RAPD和ISSR被用于评估13种竹子基因型的遗传多样性。总共测试了120个RAPD引物和63个ISSR引物,其中只有42个多态性引物(30个RAPD和12个ISSR)产生了可重复的扩增图谱并用于本研究。30个RAPD引物共产生645个扩增片段,其中623个是多态性的,在13个基因型中每个引物观察到20.76个多态性条带。12个ISSR引物产生246个扩增片段,其中241个是多态性的,在13个不同基因型中每个引物观察到20.08个多态性条带。RAPD、ISSR以及合并的RAPD和ISSR聚类图的杰卡德系数分别为0.26至0.83、0.23至0.86和0.26至0.84。本研究发现不同优良竹子基因型之间存在较大的遗传多样性。这样的调查可以深入了解现有基因型,这可能会被造纸工业进一步利用。
