水生生物学报
水生生物學報
수생생물학보
ACTA HYDROBIOLOGICA SINICA
2014年
4期
627-635
,共9页
遗传结构%细胞色素b基因%遗传多样性%长江流域
遺傳結構%細胞色素b基因%遺傳多樣性%長江流域
유전결구%세포색소b기인%유전다양성%장강류역
Hemiculter leucisculus%Genetic structure%Cyt b%Genetic diversity%Yangtze drainage
鱼类群体遗传学研究主要集中在经济鱼类或濒危物种,然而一些经济价值较低的物种的遗传结构却甚少关注。因此,研究选择了经济价值较低的(Hemiculter leucisculus),共计323尾个体分别来自13个长江流域及其附属湖泊的自然群体。通过扩增线粒体DNA Cytb基因序列片段(1100 bp),以探讨种群遗传结构和遗传多样性。遗传多样性分析呈现出高单倍型多样性和高核苷酸多样性的模式,表明该种群在长江流域较为稳定。另外,基于线粒体细胞色素 b 基因的系统发育分析,显示有5个线粒体谱系(谱系 A-F)组成。中性检验和核苷酸错配分布分析均显示谱系A、B、E、F曾经历过种群扩张,并且呈现从上游向中游扩张的规律。谱系间较高且显著的遗传分化指数和显著的系统进化关系,均表明谱系 A-F 之间存在明显的遗传分化,暗示长江流域可能至少存在4个不同线粒体DNA水平上的种。种群的遗传结构和多样性可能受到了长江流域特定格局的影响。
魚類群體遺傳學研究主要集中在經濟魚類或瀕危物種,然而一些經濟價值較低的物種的遺傳結構卻甚少關註。因此,研究選擇瞭經濟價值較低的(Hemiculter leucisculus),共計323尾箇體分彆來自13箇長江流域及其附屬湖泊的自然群體。通過擴增線粒體DNA Cytb基因序列片段(1100 bp),以探討種群遺傳結構和遺傳多樣性。遺傳多樣性分析呈現齣高單倍型多樣性和高覈苷痠多樣性的模式,錶明該種群在長江流域較為穩定。另外,基于線粒體細胞色素 b 基因的繫統髮育分析,顯示有5箇線粒體譜繫(譜繫 A-F)組成。中性檢驗和覈苷痠錯配分佈分析均顯示譜繫A、B、E、F曾經歷過種群擴張,併且呈現從上遊嚮中遊擴張的規律。譜繫間較高且顯著的遺傳分化指數和顯著的繫統進化關繫,均錶明譜繫 A-F 之間存在明顯的遺傳分化,暗示長江流域可能至少存在4箇不同線粒體DNA水平上的種。種群的遺傳結構和多樣性可能受到瞭長江流域特定格跼的影響。
어류군체유전학연구주요집중재경제어류혹빈위물충,연이일사경제개치교저적물충적유전결구각심소관주。인차,연구선택료경제개치교저적(Hemiculter leucisculus),공계323미개체분별래자13개장강류역급기부속호박적자연군체。통과확증선립체DNA Cytb기인서렬편단(1100 bp),이탐토충군유전결구화유전다양성。유전다양성분석정현출고단배형다양성화고핵감산다양성적모식,표명해충군재장강류역교위은정。령외,기우선립체세포색소 b 기인적계통발육분석,현시유5개선립체보계(보계 A-F)조성。중성검험화핵감산착배분포분석균현시보계A、B、E、F증경력과충군확장,병차정현종상유향중유확장적규률。보계간교고차현저적유전분화지수화현저적계통진화관계,균표명보계 A-F 지간존재명현적유전분화,암시장강류역가능지소존재4개불동선립체DNA수평상적충。충군적유전결구화다양성가능수도료장강류역특정격국적영향。
Fish population genetics have mainly focused on economic fish or endangered species, while the knowledge on genetic structure of the fish with low economic value is limited. In the present study, we collected a total of 323 sharpbelly (Hemiculter leucisculus) individuals from 13 populations in Yangtze River Basin and the affiliated lakes to evaluate their genetic diversity and population structure by amplifying the mitochondrial DNA Cyt b gene fragments (1100 bp). Genetic diversity analysis showed the pattern of high haplotype diversity and high nucleotide diversity, sug-gesting that the populations in the Yangtze River Basin were fairly stable. In addition, based on mitochondrial cyto-chrome b gene phylogenetic analysis, there were five mitochondrial lineages (lineage A-F). The neutral test of Fu’Fs and mismatch distributions with negative Tajima’s D values indicated that the lineage A, B, E, and F underwent population expansion, and the expansion was from the upper section to the middle section of the Yangtze drainage. Fst and phy-logenetic analysis and the significant divergence among lineages A-F implied that there are at least four different species on the level of mitochondrial DNA in the Yangtze River Basin. The population genetic structure and diversity of Hemiculter leucisculus may reflect the distribution pattern in Yangtze River Basin.
