中国水产科学
中國水產科學
중국수산과학
Journal of Fishery Sciences of China
2015年
5期
887-895
,共9页
孙航%姜志强%蒋洁兰%温施慧%李幸%暴宁%苏鹏%毛明光
孫航%薑誌彊%蔣潔蘭%溫施慧%李倖%暴寧%囌鵬%毛明光
손항%강지강%장길란%온시혜%리행%폭저%소붕%모명광
太平洋鳕%IRF3%干扰素%绝对定量PCR
太平洋鱈%IRF3%榦擾素%絕對定量PCR
태평양설%IRF3%간우소%절대정량PCR
Gadus macrocephalus%IRF3%interferon%absolute quantitative PCR
本研究通过克隆首次得到太平洋鳕(Gadus macrocephalus)干扰素调节因子3(interferon regulatory factor 3, IRF3)的部分序列。该序列长1878 bp,包含长1377 bp的完整开放阅读框(open reading frame, ORF),编码459个氨基酸,其编码的蛋白质分子量约为51 kD。经氨基酸序列比对发现,太平洋鳕 IRF3的氨基酸序列包括1个含有5个保守色氨酸残基的DNA结合域(DNA binding domain, DBD)和1个保守的C端IRF关联域(IRF association domain, IAD);系统进化树分析表明,太平洋鳕IRF3与其他物种的IRF3亲缘关系较近。应用绝对荧光定量PCR方法对IRF3在不同组织和不同日龄(days post-hatching, dph)仔鱼的表达水平进行检测,并对干扰素在仔鱼期的免疫作用进行分析。组织表达绝对定量结果显示,性腺,肝和胸腺表达量高于其他组织。不同日龄仔鱼IRF3表达量结果显示, IRF3在受精卵就已经表达,在25 dph表达量大幅提高。本研究的结果为进一步研究太平洋鳕干扰素作用机制以及其在早期发育中的作用奠定了基础。
本研究通過剋隆首次得到太平洋鱈(Gadus macrocephalus)榦擾素調節因子3(interferon regulatory factor 3, IRF3)的部分序列。該序列長1878 bp,包含長1377 bp的完整開放閱讀框(open reading frame, ORF),編碼459箇氨基痠,其編碼的蛋白質分子量約為51 kD。經氨基痠序列比對髮現,太平洋鱈 IRF3的氨基痠序列包括1箇含有5箇保守色氨痠殘基的DNA結閤域(DNA binding domain, DBD)和1箇保守的C耑IRF關聯域(IRF association domain, IAD);繫統進化樹分析錶明,太平洋鱈IRF3與其他物種的IRF3親緣關繫較近。應用絕對熒光定量PCR方法對IRF3在不同組織和不同日齡(days post-hatching, dph)仔魚的錶達水平進行檢測,併對榦擾素在仔魚期的免疫作用進行分析。組織錶達絕對定量結果顯示,性腺,肝和胸腺錶達量高于其他組織。不同日齡仔魚IRF3錶達量結果顯示, IRF3在受精卵就已經錶達,在25 dph錶達量大幅提高。本研究的結果為進一步研究太平洋鱈榦擾素作用機製以及其在早期髮育中的作用奠定瞭基礎。
본연구통과극륭수차득도태평양설(Gadus macrocephalus)간우소조절인자3(interferon regulatory factor 3, IRF3)적부분서렬。해서렬장1878 bp,포함장1377 bp적완정개방열독광(open reading frame, ORF),편마459개안기산,기편마적단백질분자량약위51 kD。경안기산서렬비대발현,태평양설 IRF3적안기산서렬포괄1개함유5개보수색안산잔기적DNA결합역(DNA binding domain, DBD)화1개보수적C단IRF관련역(IRF association domain, IAD);계통진화수분석표명,태평양설IRF3여기타물충적IRF3친연관계교근。응용절대형광정량PCR방법대IRF3재불동조직화불동일령(days post-hatching, dph)자어적표체수평진행검측,병대간우소재자어기적면역작용진행분석。조직표체절대정량결과현시,성선,간화흉선표체량고우기타조직。불동일령자어IRF3표체량결과현시, IRF3재수정란취이경표체,재25 dph표체량대폭제고。본연구적결과위진일보연구태평양설간우소작용궤제이급기재조기발육중적작용전정료기출。
Gadus macrocephalus is a marine teleost that is economically important throughout the world. The species has a high nutritional value and is processed into a variety of products. As a result of the increase in fisheries targeting this species, the abundance of wild populations has declined. Our laboratory has successfully carried out artificial breeding and rearing of G. macrocephalus. However, we observed significant mortality as a result of immune system dysfunction. To improve artificial breeding techniques for G. macrocephalus, the molecular mechanisms and expression characteristics of immune-related genes needs to be understood. Interferon regulatory factor 3 (IRF3) is a member of the interferon regulatory factor family. It is an important transcription factor for the expression of the interferon α/βgene and plays an important role in the host antiviral response mechanism. We obtained a cDNA sequence of G. mac-rocephalus IRF3 gene for the first time using gene cloning. The sequence was 1878 bp in length with a whole open reading frame (ORF) of 1377 bp that encoded a 459 amino acid protein. The molecular weight of the encoded protein was~51 kDa. Amino acid sequence alignment revealed that the protein included a DNA binding domain (DBD) con-taining five conserved tryptophan residues and a conserved C-terminal IRF association domain (IAD). The phylogenetic tree revealed that the IRF3 of G. macrocephalus was clustered with the IRF3 of other species, distant from IRF1 and IRF2. The tissue and age-specific expression of IRF3 was detected using absolute quantitative PCR. Additionally, the effect of interferon during the larval stages was analyzed. The expression levels were highest in the gonad, liver, and thymus. The copy number of IRF3 in the different tissues was: 231.244 copies/ng, 516.649 copies/ng, 695.158 cop-ies/ng, 2128.273 copies/ng, 198.548 copies/ng, 101.758 copies/ng, 419.927 copies/ng, 13.016 copies/ng, 1102.775 cop-ies/ng, and 13.016 copies/ng in the intestine, heart, thymus, gonad, gill, muscle, spleen, brain, liver, and kidney, respec-tively. The expression of IRF3 was detected in fertilized eggs and remained relatively constant to 5 d post-hatching (dph) but increased by 25 dph. The copy number of IRF3 at different ages was:6.189 copies/ng, 6.809 copies/ng, 8.066 cop-ies/ng, 5.009 copies/ng, 5.009 copies/ng, 10.390 copies/ng, and 10.390 copies/ng in the fertilized egg, 1 dph, 5 dph, 9 dph, 17 dph, 25 dph, or 33 dph, respectively. Our results suggest that the gonad, liver, and thymus are the primary or-gans for IRF3 expression. Additionally, our results suggest that interferon plays an antiviral role at 25 dph. The results of this study lay the foundation for further study of the mechanism of interferon action during the early development of G. macrocephalus and provide basic data for studies of the immune system function in G. Macrocephalus.