植物基因组大小的多样性和动态：来自塔希提香草（Vanilla xtahitensis，兰科）细胞遗传学研究的多倍体实例。

Diversity and dynamics of plant genome size: an example of polysomaty from a cytogenetic study of Tahitian vanilla (Vanilla xtahitensis, Orchidaceae).

机构信息

Etablissement Vanille de Tahiti, Département Recherche et Développement, BP 40135 Fare Tony 98713 Papeete, French Polynesia.

出版信息

Am J Bot. 2011 Jun;98(6):986-97. doi: 10.3732/ajb.1000415. Epub 2011 May 17.

DOI:10.3732/ajb.1000415

PMID:21613071

Abstract

PREMISE OF THE STUDY

Abnormal mitotic behavior with somatic aneuploidy and partial endoreplication were previously reported for the first time in the plant kingdom in Vanilla planifolia. Because vanilla plants are vegetatively propagated, such abnormalities have been transmitted. This study aimed to determine whether mitotic abnormalities also occur in Vanilla hybrid or are suppressed by sexual reproduction.

METHODS

Twenty-eight accessions of Vanilla ×tahitensis, one V. planifolia, and hybrid V. planifolia × V. ×tahitensis were analyzed by chromosome counts, cytometry, and fluorescent in situ hybridization of 18S-5.8S-26S rDNA.

KEY RESULTS

In a single root meristem of V. ×tahitensis, chromosome number varied from 22 to 31 in diploids (mean 2C = 5.23 pg), 31 to 41 in triploids (2C = 7.82 pg) and 43 to 60 in tetraploids (2C = 10.27 pg). Morphological diversity is apparently related to ploidy changes. Aneuploidy and partial (asymmetrical) endoreduplication were observed in root meristems of both V. ×tahitensis and the hybrid V. planifolia × V. ×tahitensis, but pollen grains had the euploid chromosome number (n = 15 in diploids).

CONCLUSIONS

Genome irregularities may be transmitted not only during vegetative propagation but also by sexual reproduction in Vanilla. However, there must be a complex regulation of genome size and organization between the aneuploidy in somatic tissues and subsequently euploid gametic tissue. This is a novel example of polysomaty with developmentally regulated partial endoreplication.

摘要

研究前提

先前在香荚兰属植物中首次报道了体细胞非整倍体和部分内复制的异常有丝分裂行为。由于香草植物是通过营养繁殖的，因此这些异常已经被传递。本研究旨在确定有丝分裂异常是否也发生在香草杂种中，或者是否被有性繁殖所抑制。

方法

通过染色体计数、细胞光度术和 18S-5.8S-26S rDNA 的荧光原位杂交，对 28 个香荚兰杂种（V. ×tahitensis）、1 个 V. planifolia 和杂交种 V. planifolia × V. ×tahitensis 的材料进行了分析。

主要结果

在 V. ×tahitensis 的单个根分生组织中，染色体数在二倍体中从 22 到 31（平均值 2C = 5.23 pg），在三倍体中从 31 到 41（2C = 7.82 pg），在四倍体中从 43 到 60（2C = 10.27 pg）。形态多样性显然与倍性变化有关。在 V. ×tahitensis 和杂交种 V. planifolia × V. ×tahitensis 的根分生组织中都观察到了非整倍体和部分（不对称）内复制，但花粉粒具有整倍体染色体数（二倍体中 n = 15）。

结论

基因组的不稳定性不仅可以在营养繁殖过程中传递，也可以在香荚兰属的有性繁殖中传递。然而，在体细胞组织中的非整倍体和随后的整倍配子组织之间，必然存在着基因组大小和组织的复杂调节。这是一个具有发育调控的部分内复制的多倍体的新例子。

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植物基因组大小的多样性和动态：来自塔希提香草（Vanilla xtahitensis，兰科）细胞遗传学研究的多倍体实例。

Diversity and dynamics of plant genome size: an example of polysomaty from a cytogenetic study of Tahitian vanilla (Vanilla xtahitensis, Orchidaceae).

机构信息

出版信息

PREMISE OF THE STUDY

METHODS

KEY RESULTS

CONCLUSIONS

研究前提

方法

主要结果

结论

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