A checklist of chromosome numbers and a review of karyotype variation in Odonata of the world.

IF 1 4区 生物学 Q4 GENETICS & HEREDITY Comparative Cytogenetics Pub Date : 2020-10-22 eCollection Date: 2020-01-01 DOI:10.3897/CompCytogen.v14i4.57062
Valentina G Kuznetsova, Natalia V Golub
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引用次数: 12

Abstract

The ancient insect order Odonata is divided into three suborders: Anisoptera and Zygoptera with approximately 3000 species worldwide each, and Anisozygoptera with only four extant species in the relict family Epiophlebiidae. An updated list of Odonata species studied regarding chromosome number, sex chromosome mechanism and the occurrence of m-chromosomes (= microchromosomes) is given. Karyotypes of 607 species (198 genera, 23 families), covering approximately 10% of described species, are reported: 423 species (125 genera, 8 families) of the Anisoptera, 184 species (72 genera, 14 families) of the Zygoptera, and one species of the Anisozygoptera. Among the Odonata, sex determination mechanisms in males can be of X(0), XY and X1X2Y types, and diploid chromosome numbers can vary from 6 to 41, with a clear mode at 2n = 25(60%) and two more local modes at 2n = 27(21%) and 2n = 23(13%). The karyotype 2n = 25(24A + X) is found in each of the three suborders and is the most typical (modal) in many families, including the best-covered Libellulidae, Corduliidae (Anisoptera), Lestidae, Calopterygidae, and Platycnemididae (Zygoptera). This chromosome set is considered ancestral for the Odonata in general. Chromosome rearrangements, among which fusions and fissions most likely predominated, led to independent origins of similar karyotypes within different phylogenetic lineages of the order. The karyotype 2n = 27(26A + X) prevails in Aeshnidae and Coenagrionidae, whereas the karyotype 2n = 23(22A + X) is modal in Gomphidae and Chlorocyphidae, in both pairs of families one being from the Anisoptera while the other from the Zygoptera.

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世界蜥目动物染色体数目清单及核型变异研究进展。
古昆虫目蛇翅目分为三亚目:异翅目和叉翅目,在世界范围内各有近3000种,而异翅目仅存4种。从染色体数目、性染色体机制和m染色体(=微染色体)的发生等方面对蜥目动物进行了最新的研究。报道了607种(23科198属)的核型,约占所描述种的10%,其中异翅目423种(8科125属),双翅目184种(14科72属),各向异性翅目1种。雄鼠的性别决定机制可以是X(0)、XY和X1X2Y型,二倍体染色体数目可以从6到41不等,其中2n = 25(60%)时有一个明确模式,2n = 27(21%)和2n = 23(13%)时有两个局部模式。核型2n = 25(24A + X)在三个亚目中均有发现,并且在许多科中最典型(模态),包括覆盖最广的Libellulidae, Corduliidae(异翅目),leestidae, Calopterygidae和Platycnemididae (Zygoptera)。这组染色体通常被认为是蛇蜥的祖先。染色体重排,其中融合和分裂最有可能占主导地位,导致类似核型的独立起源在不同的系统发育谱系的目的。核型2n = 27(26A + X)主要存在于飞蛾科和小飞蛾科,核型2n = 23(22A + X)主要存在于飞蛾科和绿飞蛾科,核型分别为异翅目和钩翅目。
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来源期刊
Comparative Cytogenetics
Comparative Cytogenetics 生物-遗传学
CiteScore
2.40
自引率
0.00%
发文量
13
审稿时长
>12 weeks
期刊介绍: Comparative Cytogenetics is a peer-reviewed, open-access, rapid online journal launched to accelerate research on all aspects of plant and animal cytogenetics, karyosystematics, and molecular systematics. All published papers can be freely copied, downloaded, printed and distributed at no charge for the reader. Authors are thus encouraged to post the pdf files of published papers on their homepages or elsewhere to expedite distribution. There is no charge for color.
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