共查询到19条相似文献,搜索用时 140 毫秒
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动物线粒体基因组通常组成稳定,基因排列也相对保守,极少发生重组。但是昆虫的线粒体基因组具有重排的可能性,而且这些重排事件可能为系统发育研究提供重要的信息。因此,深入研究昆虫线粒体基因组的重排可能有助于解决具有争议的系统发生关系。本文对昆虫线粒体基因组的重排类型、重排机理和重排在昆虫系统发育分析中的应用等方面的研究进展进行了介绍。 相似文献
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基因组学相关概念及其研究进展 总被引:35,自引:1,他引:35
20世纪以来,生命科学得到了空前的发展,大量新的概念不断涌现并相应产生了许多新兴学科,本文试图对当今研究的热点领域-基因组学,包括结构基因组学,比较基因组学,功能基因组学和较新兴的蛋白质组学、功能蛋白质组学及其相关概念、营养基因组学、生物信息学及其相关概念和近期进展做一介绍。 相似文献
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玉米比较基因组学研究进展 总被引:4,自引:0,他引:4
玉米是世界上重要的粮食作物 ,长期以来一直是遗传学、分子生物学和基因组学研究的重点对象。近十多年来 ,涉及到玉米的基因组学研究取得了很大进展。不仅在利用比较遗传作图方法方面发现玉米和其它植物 (尤其是禾谷类作物 )的基因组存在广泛的共线性 ,在较小的DNA区域上也发现存在微共线性。尽管还存在一些共线性的例外情形 ,进一步的比较基因组学研究将深入阐明玉米基因组的结构和进化 ,并把这些研究成果应用于基因发掘中。 相似文献
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小麦的比较基因组学和功能基因组学 总被引:11,自引:1,他引:11
小麦是异源多倍体植物,具有大的染色体组,并且基因组中重复序列所占比例较高,这些特征限制了小麦基因组研究的进展。比较基因组学方法为运用模式植物进行小麦基因组学研究提供了一个操作平台。功能基因组学的研究集中于基因组中转录表达的部分,基因功能的确定是功能基因组学研究的主要内容。对比较基因组学在小麦基因组研究中的应用和小麦功能基因组学的研究内容和方法进行了综述。 相似文献
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乳酸菌基因组学研究进展 总被引:1,自引:0,他引:1
乳酸菌(Lactic acid bacteria LAB)是指一类能够通过同型发酵或异型发酵而产生乳酸的细菌。它们一般呈革兰阳性,厌氧,无芽孢,耐酸。根据发酵形式的不同,乳酸菌可以分为两类:同型发酵的菌主要产物为乳酸,而异型发酵的菌除了乳酸还同时产生乙酸、乙醇、二氧化碳及甲酸等。乳酸菌广泛分布于自然界,与人类生活关系密切。在人类的胃肠道、口腔以及生殖道都能够找到一些正常生存的乳酸菌,它们被认为是胃肠道的正常菌群,对于维持肠道的完整性、免疫调节及抑制致病菌、抗感染方面具有重要作用。最近有证据显示乳酸菌还能够加强特异性及非特异性免疫。目前乳酸菌广泛应用于食品发酵、工业乳酸发酵以及医疗保健领域。对于乳酸菌的研究已经从最初的形态学研究发展为细胞水平和分子水平的研究。 相似文献
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细菌比较基因组学和进化基因组学 总被引:2,自引:0,他引:2
通过比较不同细菌基因组间差异性与相似性,进而深入研究其分子机理,最终与其表型特征联系起来,是为比较基因组学;不同细菌经过长期进化,其基因组在结构与功能上存在着明显的分化,并构成表型进化的遗传基础,大量细菌全基因组测序的完成,细菌进化基因组学应运而生;以比较基因组学为研究手段,细菌进化基因组学可从基因组水平深入认识物种分化、生境适应、毒力进化、耐药性产生蔓延等表型进化过程。 相似文献
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低等六足动物包括原尾纲、弹尾纲和双尾纲三个类群,是探讨六足动物起源和进化问题的关键类群,近十年来成为节肢动物系统进化研究中的焦点之一。低等六足动物的系统发育地位以及它们之间的关系一直是备受争论的问题。通过介绍三类低等六足动物最新的分类系统,从经典分类学和系统发育两个方面对低等六足动物近十年来的研究进展进行了综述。迄今,对于三类低等六足动物都建立了比较完备的分类体系,原尾纲划分为3目10科,弹尾纲划分为4目30科,双尾纲划分为2亚目3总科10科。系统发育研究中,大多数的系统发育分析结果不支持传统的缺尾类假说,缺尾纲应摒弃不用。分子数据分析的结果普遍支持原尾纲与双尾纲近缘,但仍需要进一步探讨。线粒体基因组、比较胚胎学和比较精子学的研究结果表明,原尾纲可能经历了长期的趋异进化历史。最近的比较精子学研究支持了双尾纲的单系性。总之,三类低等六足动物系统学研究均取得了长足的发展,但仍然存在诸如研究人员匮乏和研究水平不均衡等问题。系统发育研究中,分子系统学研究成为关注的焦点,而基于核基因和线粒体基因的数据分别建立的系统发育假说存在分歧,亟需开发更优的数据分析方法。此外,需加强低等六足动物比较形态学、比较胚胎学、发育生物学等方面的研究,以便将来进行全证据的系统发育研究。 相似文献
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Teng Xu Song Qin Yongwu Hu Zhijian Song Jianchao Ying Peizhen Li Wei Dong Fangqing Zhao Huanming Yang Qiyu Bao 《DNA research》2016,23(4):325-338
Arthrospira platensis is a multi-cellular and filamentous non-N2-fixing cyanobacterium that is capable of performing oxygenic photosynthesis. In this study, we determined the nearly complete genome sequence of A. platensis YZ. A. platensis YZ genome is a single, circular chromosome of 6.62 Mb in size. Phylogenetic and comparative genomic analyses revealed that A. platensis YZ was more closely related to A. platensis NIES-39 than Arthrospira sp. PCC 8005 and A. platensis C1. Broad gene gains were identified between A. platensis YZ and three other Arthrospira speices, some of which have been previously demonstrated that can be laterally transferred among different species, such as restriction-modification systems-coding genes. Moreover, unprecedented extensive chromosomal rearrangements among different strains were observed. The chromosomal rearrangements, particularly the chromosomal inversions, were analysed and estimated to be closely related to palindromes that involved long inverted repeat sequences and the extensively distributed type IIR restriction enzyme in the Arthrospira genome. In addition, species from genus Arthrospira unanimously contained the highest rate of repetitive sequence compared with the other species of order Oscillatoriales, suggested that sequence duplication significantly contributed to Arthrospira genome phylogeny. These results provided in-depth views into the genomic phylogeny and structural variation of A. platensis, as well as provide a valuable resource for functional genomics studies. 相似文献
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Abstract More than 190 plastid genomes have been completely sequenced during the past two decades due to advances in DNA sequencing technologies. Based on this unprecedented abundance of data, extensive genomic changes have been revealed in the plastid genomes. Inversion is the most common mechanism that leads to gene order changes. Several inversion events have been recognized as informative phylogenetic markers, such as a 30‐kb inversion found in all living vascular plants minus lycopsids and two short inversions putatively shared by all ferns. Gene loss is a common event throughout plastid genome evolution. Many genes were independently lost or transferred to the nuclear genome in multiple plant lineages. The trnR‐CCG gene was lost in some clades of lycophytes, ferns, and seed plants, and all the ndh genes were absent in parasitic plants, gnetophytes, Pinaceae, and the Taiwan moth orchid. Certain parasitic plants have, in particular, lost plastid genes related to photosynthesis because of the relaxation of functional constraint. The dramatic growth of plastid genome sequences has also promoted the use of whole plastid sequences and genomic features to solve phylogenetic problems. Chloroplast phylogenomics has provided additional evidence for deep‐level phylogenetic relationships as well as increased phylogenetic resolutions at low taxonomic levels. However, chloroplast phylogenomics is still in its infant stage and rigorous analysis methodology has yet to be developed. 相似文献
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More than 190 plastid genomes have been completely sequenced during the past two decades due to advances in DNA sequencing technologies.Based on this unprecedented abundance of data,extensive genomic changes have been revealed in the plastid genomes.Inversion is the most common mechanism that leads to gene order changes.Several inversion events have been recognized as informative phylogenetic markers,such as a 30-kb inversion found in all living vascular plants minus lycopsids and two short inversions putat... 相似文献
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As an endemic freshwater crab group in China, the phylogenetic relationships within Sinopotamon are still controversial because of the limited taxon samples. In this study, the complete mitogenomes of Sinopotamon chishuiense with 17,311 bp and the nearly complete mitogenomes of S. wushanense with 16,785 bp were firstly sequenced and analyzed. Compared with other reported mitogenomes of Potamidae, some novel patterns of gene rearrangement were detected in these two Sinopotamon mitogenomes, which could be illuminated by the mechanisms of tandem duplication‐random loss, recombination, and translocation. Phylogenetic analyses showed the nonmonophyly of the Sinopotamon and a sister group relationship with Tenuilapotamon. These crabs from the eastern and southern of the Yangtze River basin were more closely related while other crabs form the plateau areas formed a separate clade. Divergence time indicated that the Sinopotamon and its sister group Tenuilapotamon diverged from other potamiscine freshwater crabs approximately 42.65 Mya, which belongs to the recent main uplifts period of the Tibetan Plateau in the Late Miocene. Combined with the similar evolutionary rates and relatively stable habitat altitude of these Sinopotamon species, these results implied that the ecological environment may be relatively stable during the speciation. Overall, our study yielded worthy perceptions for the evolutionary and taxonomic relationship of Sinopotamon and will help to better clarify the gene rearrangement events of the invertebrate mitogenome and lay the foundation for further phylogenetic study of Sinopotamon. Overall, our study yielded valuable insights into the evolutionary history and taxonomic relationship of Sinopotamon and these results will help to better explain the gene rearrangement events of the invertebrate mitogenome and lay the foundation for further phylogenetic study of Sinopotamon. 相似文献
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有关六足动物(昆虫)系统分类中的争论热点 总被引:9,自引:0,他引:9
六足动物即昆虫的泛称,自寒武纪以来就是地球上物种最多的一个类型,近来分类学家们,从形态分类研究和分子分类研究两方面,对六足动物的系统渊源展开了热烈的争论,本文仅简单介绍其中几个争论要点。 相似文献