动物学报
動物學報
동물학보
ACTA ZOOLOGICA SINICA
2006年
1期
138-152
,共15页
老鼠%微卫星%数量%分布%密度%基因组
老鼠%微衛星%數量%分佈%密度%基因組
로서%미위성%수량%분포%밀도%기인조
Mouse%Microsatellite%Abundance%Distribution%Density%Genome
作者分析了老鼠基因组中各染色体及其内含子、外显子和基因间区上各种类型的微卫星(1-6个碱基的重复序列)的数量及其密度.SSR约占老鼠基因组的2.85%,其中46.2%存在于基因间区,4.75%存在于外显子,49.05%在内含子区域,即非编码区富含微卫星.微卫星的数量与染色体或基因区域的大小有关,但密度与染色体或基因区域的大小的关系并不十分密切.第4染色体的外显子区域中6种类型的SSR含量都比其它区域少.A,T,AC,AG,AT,AAC,AAG ,AGG,AAAC,AAAG,AAAT,AACC,AAAAC,AAAAG,AAAAT,AAACC, AAAGG,AAGAG,AAAAAC,AAAAAG,AAAAAT ,AAAGAG,ACACAT,ACAGAG,ACAGGC,ACATAT是老鼠基因组中主要的SSR类型,而一些5碱基重复单元的SSR在老鼠基因组的某一条甚至某几条染色体都不存在[动物学报52(1):138-152,2006].
作者分析瞭老鼠基因組中各染色體及其內含子、外顯子和基因間區上各種類型的微衛星(1-6箇堿基的重複序列)的數量及其密度.SSR約佔老鼠基因組的2.85%,其中46.2%存在于基因間區,4.75%存在于外顯子,49.05%在內含子區域,即非編碼區富含微衛星.微衛星的數量與染色體或基因區域的大小有關,但密度與染色體或基因區域的大小的關繫併不十分密切.第4染色體的外顯子區域中6種類型的SSR含量都比其它區域少.A,T,AC,AG,AT,AAC,AAG ,AGG,AAAC,AAAG,AAAT,AACC,AAAAC,AAAAG,AAAAT,AAACC, AAAGG,AAGAG,AAAAAC,AAAAAG,AAAAAT ,AAAGAG,ACACAT,ACAGAG,ACAGGC,ACATAT是老鼠基因組中主要的SSR類型,而一些5堿基重複單元的SSR在老鼠基因組的某一條甚至某幾條染色體都不存在[動物學報52(1):138-152,2006].
작자분석료로서기인조중각염색체급기내함자、외현자화기인간구상각충류형적미위성(1-6개감기적중복서렬)적수량급기밀도.SSR약점로서기인조적2.85%,기중46.2%존재우기인간구,4.75%존재우외현자,49.05%재내함자구역,즉비편마구부함미위성.미위성적수량여염색체혹기인구역적대소유관,단밀도여염색체혹기인구역적대소적관계병불십분밀절.제4염색체적외현자구역중6충류형적SSR함량도비기타구역소.A,T,AC,AG,AT,AAC,AAG ,AGG,AAAC,AAAG,AAAT,AACC,AAAAC,AAAAG,AAAAT,AAACC, AAAGG,AAGAG,AAAAAC,AAAAAG,AAAAAT ,AAAGAG,ACACAT,ACAGAG,ACAGGC,ACATAT시로서기인조중주요적SSR류형,이일사5감기중복단원적SSR재로서기인조적모일조심지모궤조염색체도불존재[동물학보52(1):138-152,2006].
The mouse is a pivotal model organism in animal genomics. The availability of complete mouse chromosome sequences now makes possible the determination of frequencies of SSRs at the whole-genome level. In the study, the author analyzed the abundance and density of various microsatellite types (mono- to hexa-nucleotide repeats) in the exonic, intronic and intergenic regions of different chromosomes in the mouse genome. About 2.85 % of the mouse genome was occupied by SSRs, of which 46.2% were detected in the intergenic regions, 4.75% in the exons, and 49.05% in the introns. Microsatellites occurred predominantly in the noncoding DNA. The abundance of microsatellites was positively correlated with the size of the chromosome or the genomic region. However, their overall density was not closely related to the size of the chromosome or the genomic region. The abundance of all the six repeat types was relatively low in the exonic region of Chromosome 4 as compared with other regions. In the mouse genome, A, T, AC, AG, AT, AAC, AAG,AGG, AAAC, AAAG, AAAT, AACC, AAAAC, AAAAG, AAAAT, AAACC, AAAGG, AAGAG, AAAAAC,AAAAAG, AAAAAT, AAAGAG, ACACAT, ACAGAG, ACAGGC, ACATAT were the predominant repeat types while certain pentanucleotide repeats were absent in a certain chromosome or even in several chromosomes [ Acta Zoologica Sinica 52 (1): 138-152, 2006].