[1] HAMADA T,UI-TEI K,IMAKI J,et al.Molecular cloning of SCDGF-B,a novel growth factor homologous to SCDGF/PDGF-C/fallotein[J].Biochem Biophs Res Commun,2001,280(3):733-737.
[2] LAROCHELLE W J,JEFFERS M,MCDONALD W F,et al.PDGF-D,a new protease-activated growth factor[J].Nat Cell Biol, 2001, 3(5):517-521.
[3] KURASAWA K,ARAI S,OWADA T,et al.Autoantibodies against platelet-derived growth factor receptor alpha in patients with systemic lupus erythematosus[J].Mod Rheumatol,2010,20(5):458-465.
[4] CHEN J H,YUAN W Z,WU L,et al.PDGF-D promotes cell growth,aggressiveness,angiogenesis and EMT transformation of colorectal cancer by activation of Notch1/Twist1 pathway[J].Oncotarget,2017,8(6):9961-9973.
[5] WANG Z W,KONG D J,BANERJEE S,et al.Down-regulation of platelet-derived growth factor-D inhibits cell growth and angiogenesis through inactivation of Notch-1 and nuclear factor-κB signaling[J].Cancer Res,2007,67(23):11377-11385.
[6] UUTELA M,WIRZENIUS M,PAAVONEN K,et al.PDGF-D induces macrophage recruitment,increased interstitial pressure,and blood vessel maturation during angiogenesis[J].Blood,2004,104(10):3198-3204.
[7] AHMAD A,WANG Z W,KONG D J,et al.RETRACTED ARTICLE:Platelet-derived growth factor-D contributes to aggressiveness of breast cancer cells by up-regulating Notch and NF-κB signaling pathways[J].Breast Cancer Res Trea, 2011, 126(1):15-25.
[8] BUHL E M,DJUDJAJ S,BABICKOVA J,et al.The role of PDGF-D in healthy and fibrotic kidneys[J].Kidney Int,2016, 89(4):848-861.
[9] BORKHAM-KAMPHORST E,VAN ROEYEN C R C,OSTENDORF T,et al.Pro-fibrogenic potential of PDGF-D in liver fibrosis[J].J Hepatol,2007,46(6):1064-1074.
[10] ZHAO T Q,ZHAO W Y,CHEN Y J,et al.Platelet-derived growth factor-D promotes fibrogenesis of cardiac fibroblasts[J].Am J Physiol:Heart Circ Physiol,2013,304(12):H1719-H1726.
[11] 张银辉,于晖,宋燕,等.血小板源性生长因子D抗体制备及其在人心脏纤维化组织中的表达[J].中国分子心脏病学杂志,2012,12(6):337-340.
ZHANG Y H,YU H,SONG Y,et al.PDGF-D promoted myocardial fibrosis byupregulation of collagen I[J].Molecular Cardiology of China,2012,12(6):337-340. (in Chinese)
[12] ARTEMENKO Y,GAGNON A,AUBIN D,et al.Anti-adipogenic effect of PDGF is reversed by PKC inhibition[J].J Cell Physiol,2005,204(2):646-653.
[13] HOLMSTRÖM T E,MATTSSON C L,FÄLTING J M,et al.Differential signalling pathways for EGF versus PDGF activation of Erk1/2 MAP kinase and cell proliferation in brown pre-adipocytes[J].Exp Cell Res,2008,314(19):3581-3592.
[14] VIRAKUL S,DALM V A S H,PARIDAENS D,et al.Platelet-derived growth factor-bb enhances adipogenesis in orbital fibroblasts[J].Invest Ophthalmol Vis Sci,2015,56(9):5457-5464.
[15] HYE KIM J,GYU PARK S,KIM W K,et al.Functional regulation of adipose-derived stem cells by PDGF-D[J].Stem Cells, 2015, 33(2):542-556.
[16] 赵辉,王威,张清润,等.高通量飞行时间质谱基因分型方法的研究[J].生物化学与生物物理进展,2005,32(7):667-672.
ZHAO H,WANG W,ZHANG Q R,et al.The study of high throughput MALDI-TOF genotyping assay[J].Progress in Biochemistry and Biophysics,2005,32(7):667-672.(in Chinese)
[17] BAI Y Y,CHEN J Z,SUN K,et al.A functional variant in promoter region of Platelet-derived Growth Factor-D is probably associated with intracerebral hemorrhage[J].J Neuroinflammation,2012,9:26.
[18] 高静,刘相飞,陈玉东.黄三角地区人群中PDGF-D基因多态性与冠心病的相关性[J].中国动脉硬化杂志,2016,24(9):944-948.
GAO J,LIU X F,CHEN Y D.Correlation of PDGF-D gene polymorphism with coronary artery disease in huangsanjiao population[J].Chinese Journal of Arteriosclerosis,2016,24(9):944-948.(in Chinese)
[19] 刘相飞,陈玉东,高静.血小板源性生长因子基因多态性与冠状动脉粥样斑块性质的相关性[J].实用医学杂志,2016,32(5):758-760.
LIU X F,CHEN Y D,GAO J.Correlation of PDGF-D gene polymorphism with coronary atherosclerotic plaque[J].The Journal of Practical Medicine,2016,32(5):758-760.(in Chinese)
[20] 杨志伟,王燕锋,朱大勇,等.血小板源性生长因子-D基因多态性与大肠癌遗传易感性关系的研究[J].医学研究杂志,2014,43(9):60-63.
YANG Z W,WANG Y F,ZHU D Y, et al.Study on Association of platelet-derived growth factor-d gene polymorphism with genetic susceptibility to colorectal cancer[J].Journal of Medical Research,2014,43(9):60-63. (in Chinese)
[21] 焦小丽,景炅婕,乔利英,等.绵羊Lpin2基因多态性及其与尾型和屠宰性状的关联分析[J].中国畜牧兽医,2017,44(4):1037-1045.
JIAO X L,JING J J,QIAO L Y,et al.Polymorphisms of Lpin2 gene and its association with tail type and slaughter traits in sheep[J].China Animal Husbandry & Veterinary Medicine,2017,44(4):1037-1045.(in Chinese)
[22] 高中元,林婄婄,袁亚男,等.PLIN基因多态性及其与绵羊尾形和屠宰性状的关联研究[J].山西农业大学学报:自然科学版,2012,32(2):158-164.
GAO Z Y,LIN P P,YUAN Y N,et al,Study on the polymorphism of PLIN gene and its association with tail and slaughter traits in sheep[J].Journal of Shanxi Agricultural University:Natural Science Edition, 2012,32(2):158-164.(in Chinese)
[23] 张静,景炅婕,张方,等.绵羊ANGPTL4基因的多态性及其与尾型和屠宰性状的关联研究[J].中国畜牧杂志,2016,52(5):12-18.
ZAHNG J,JING J J,ZHANG F,et al.Study on polymorphisms of ovine ANGPTL4 gene and the associations with tail type and slaughter traits[J].Chinese Journal of Animal Science,2016,52(5):12-18.(in Chinese)
[24] ZHU C Y,FAN H Y,YUAN Z H,et al.Genome-wide detection of CNVs in Chinese indigenous sheep with different types of tails using ovine high-density 600K SNP arrays[J].Sci Rep,2016,6:27822.
[25] WEI C H,WANG H H,LIU G,et al.Genome-wide analysis reveals population structure and selection in Chinese indigenous sheep breeds[J]. BMC Genomics,2015,16:194.
[26] 王慧华.中国地方绵羊群体结构分析及基因组选择痕迹挖掘[D].北京:中国农业科学院,2015.
WANG H H,Genome-wide analysis reveals population structure and selection in Chinese indigenous sheep breeds[D]. Beijing:Chinese Academy of Agricultural Sciences,2015. (in Chinese)
[27] 袁泽湖.利用选择信号分析方法筛选与绵羊尾型相关的基因[D].北京:中国农业科学院,2016.
YUAN Z H.Analysis of selection signatures identify genes associated with tail type in sheep[D].Beijing:Chinese Academy of Agricultural Sciences,2016.(in Chinese)
[28] 刘真,王慧华,刘瑞凿,等.不同尾型绵羊全基因组选择信号检测[J].畜牧兽医学报,2015,46(10):1721-1732.
LIU Z,WANG H H,LIU R Z,et al.Genome-wide detection of selection signatures of distinct tail types in sheep populations[J]. Chinese Journal of Animal and Veterinary Sciences,2015,46(10):1721-1732.(in Chinese)
[29] YANG J,LI W R,LV F H,et al.Whole-genome sequencing of native sheep provides insights into rapid adaptations to extreme environments[J].Mol Biol Evol,2016,33(10):2576-2592.
[30] ZHAO Y X,YANG J,LV F H,et al.Genomic reconstruction of the history of native sheep reveals the peopling patterns of nomads and the expansion of early pastoralism in East Asia[J].Mol BiolEvol,2017,34(9):2380-2395.
[31] MASTRANGELO S,MOIOLI B,AHBARA A,et al.Genome-wide scan of fat-tail sheep identifies signals of selection for fat deposition and adaptation[J].Anim Prod Sci,2018,doi:10.1071/AN17753.
[32] SUZUKI S,ZONG W Y,HIRAI M,et al.Genetic variations at urotensin Ⅱ and urotensin Ⅱ receptor genes and risk of type 2 diabetes mellitus in Japanese[J].Peptides,2004,25(10):1803-1808.
[33] 姜运良,李宁,杜立新,等.猪肌肉生长抑制素基因5'调控区T→A突变与生长性状的关系分析[J].遗传学报,2002,29(5):413-416.
JIANG Y L,LI N,DU L X,et al.Relationship of T→A mutation in the promoter region of myostatin gene with growth traits in swine[J].Journal of Genetics and Genomics,2002,29(5):413-416.(in Chinese)
[34] 余勐.新疆维吾尔妇女宫颈癌组织中HPV16上游调控区突变及其与宫颈癌发生关系的研究[D].乌鲁木齐:新疆大学,2006.
YU M.Studies on the relationship between the mutation of HPV16 URR from cervical carcinoma biopsies and the occurrence of cervical cancer in Xinjiang Uygur[D].Urumqi:Xinjiang University,2016.(in Chinese)
[35] 许艳丽.牛FSHβ基因上游调控区连锁突变对其转录的影响分析[D].长春:吉林大学,2011.
XU Y L.Effect of chain mutation of FSHβ gene upstream regulatory region on transcription in bovine[D].Changchun:Jilin University,2011.(in Chinese)
[36] BHATTACHARYYA N,BANERJEE D.Transcriptional regulatory sequences within the first intron of the chicken apolipoproteinAI (apoAI) gene[J].Gene,1999,234(2):371-380.
[37] CLEMENT J Q,WILKINSON M F.Rapid induction of nuclear transcripts and inhibition of intron decay in response to the polymerase Ⅱ inhibitor DRB[J].J Mol Biol,2000,299(5):1179-1191.
[38] KINCH L N,GRISHIN N V.Evolution of protein structures and functions[J].Curr Opin Struct Biol,2002,12(3):400-408.
[39] 王以婷,杨卫红,赵云龙,等.CYP3A4内含子10对CYP3A4基因表达的增强子作用[J].昆明医科大学学报,2017,38(1):13-17.
WANG Y T,YANG W H,ZHAO Y L,et al,The Enhancer role of CYP3A4 intron 10 in CYP3A4 gene expression[J].Journal of Kunming Medical University,2017,38(1):13-17.(in Chinese)
[40] 王金发.人雄激素芳香化酶基因内含子中启动子的研究[J].中山大学学报:自然科学版,1997,36(6):6-10.
WANG J F.The studies of the promoter in the intron Ⅱ of the human aromatase gene[J].Acta Scientiarum Naturalium Universitatis Sunyatseni,1997,36(6):6-10.(in Chinese)
[41] 谢晓玲,马思雨,吴希,等.两种新的F8内含子突变导致剪接异常的机制研究[J].诊断学理论与实践,2018,17(1):32-37.
XIE X L,MA S Y,WU X,et al.Molecular pathogenesis of two novel splice site mutations ofF8 in hemophilia A[J].Journal of Diagnostics Concepts & Practice,2018,17(1):32-37.(in Chinese)
[42] MIKOL D D,RONGNOPARUT P,ALLWARDT B A,et al.The oligodendrocyte-myelin glycoprotein of mouse:primary structure and gene structure[J].Genomics,1993,17(3):604-610.
[43] 胡守旺,梁希若,吴淑华.突变和修饰IFN-α2b基因的5'和3'端对其在E. coli表达的调控作用[J].免疫学杂志,2000,16(5):355-358.
HU S W,LIANG X R,WU S H.Mutagenesis and modifications of IFN-α 2b gene affect the expression level in E. coli[J].Immunological Journal,2000, 16(5):355-358.(in Chinese)
[44] 石统东,吴玉章,朱锡华.真核mRNA 3'非翻译区在基因表达中的作用[J].生物化学与生物物理进展,1998,25(3):195-196,253.
SHI T D,WU Y Z,ZHU X H.3' untranslated region of eukaryotic mRNA in gene regulation[J].Progress in Biochemistry and Biophysics,1998,25(3):195-196,253.(in Chinese)
[45] OROZCO G,HINKS A,EYRE S,et al.Combined effects of three independent SNPs greatly increase the risk estimate for RA at 6q23[J].Hum Mol Genet,2009,18(14):2693-2699.
[46] HORNE B D,CAMP N J.Principal component analysis for selection of optimal SNP-sets that capture intragenic genetic variation[J]. Genet Epidemiol, 2004, 26(1):11-21. |