濒危物种石蒜在再引入过程中离体再生时的遗传稳定性

Genetic Stability of the Endangered Species L. Regenerated In Vitro during the Reintroduction Process.

作者信息

Parzymies Marzena, Pogorzelec Magdalena, Głębocka Katarzyna, Śliwińska Elwira

机构信息

Subdepartment of Ornamental Plants and Dendrology, Institute of Horticultural Production, University of Life Sciences in Lublin, 20-950 Lublin, Poland.

Department of Hydrobiology and Protection of Ecosystems, University of Life Sciences in Lublin, 20-950 Lublin, Poland.

出版信息

Biology (Basel). 2020 Nov 5;9(11):378. doi: 10.3390/biology9110378.

DOI:10.3390/biology9110378

PMID:33167587

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7694517/

Abstract

L. is a boreal relict species, threatened with extinction in Poland. An 80% decrease in the number of its stands was confirmed in the last half-century, so that to prevent the loss of downy willow, attempts were made to reintroduce this species in natural habitats. Micropropagation was chosen as a first stage of its active conservation. shoots were collected and disinfected with NaOCl, AgNO, or HgCl or with a two-step disinfection with NaOCl and then placed on MS medium with BA 1 mg·dm and IBA 0.1 mg·dm. Regenerated shoots were cultivated with addition of BA, KIN, or 2iP, alone or in combination with auxins, to find the highest multiplication rate. Inter-simple sequence repeat (ISSR) analysis and flow cytometric analyses were conducted on in vitro regenerated plants to check their genetic stability. Disinfection was quite difficult and the use of HgCl was the most efficient. The highest multiplication rate was obtained in presence of KIN at 0.5 mg·dm + IAA at 0.5 mg·dm. The analysis confirmed the genome size stability, which is in agreement with the results obtained by ISSR, revealing no somaclonal variation in plantlets and therefore allowing the use of the obtained plants for reintroduction.

摘要

L. 是一种北方残遗物种，在波兰面临灭绝威胁。在上个世纪后半叶，其林分数量减少了80%，因此为防止绒毛柳的消失，人们尝试在自然栖息地重新引入该物种。微繁殖被选为其积极保护的第一阶段。采集嫩枝并用次氯酸钠、硝酸银或氯化汞进行消毒，或先用次氯酸钠进行两步消毒，然后置于添加了1毫克·分米⁻³ 苄氨基腺嘌呤（BA）和0.1毫克·分米⁻³ 吲哚丁酸（IBA）的MS培养基上。再生嫩枝在添加BA、激动素（KIN）或异戊烯腺嘌呤（2iP）单独或与生长素组合的情况下进行培养，以找到最高增殖率。对离体再生植株进行了简单序列重复区间（ISSR）分析和流式细胞术分析，以检查其遗传稳定性。消毒相当困难，使用氯化汞最为有效。在0.5毫克·分米⁻³ 的KIN和0.5毫克·分米⁻³ 的吲哚乙酸（IAA）存在下获得了最高增殖率。分析证实了基因组大小的稳定性，这与ISSR获得的结果一致，表明植株中没有体细胞克隆变异，因此可以将获得的植株用于重新引入。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9314/7694517/d4b9a2446f55/biology-09-00378-g001.jpg

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濒危物种石蒜在再引入过程中离体再生时的遗传稳定性

Genetic Stability of the Endangered Species L. Regenerated In Vitro during the Reintroduction Process.

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