银鲫与彩鲫卵母细胞cDNA文库构建及周期蛋白A1的cDNA克隆

分别取行天然雌核发育繁殖的银鲫和两性生殖的彩鲫的卵母细胞为材料,提取总RNA,分离mRNA,进而反转录合成cDNA并定向插入λgtll Sfi-Not克隆载体,经体外包装构建了银鲫与彩鲫卵母细胞的表达型cDNA文库。测试结果表明库容量分别达到3.1×106(银鲫)和1.6×106(彩鲫)。进一步人工合成Cyclin A1保守引物,采用PCR扩增文库的方法,克隆了银鲫(1616bp)与彩鲫(1626bp)的Cyclin A1全长cDNA。序列分析结果表明:两种鱼编码区长度均为1173bp,起始于一个包含在脊椎动物起始密码子ANNATG基元内ATG的单一开放读码框,编码391个氨基酸;5'-端非编码区长度也同为70bp,3-'端非编码区长度略有不同,银鲫为373bp,而彩鲫则为383bp;二者3'-端均带有AATAAA的Poly(A)加尾信号以及24bp(银鲫)和27bp(彩鲫)的Poly(A)尾巴。比较银鲫、彩鲫和金鱼与人、爪蟾Cyclin A1氨基酸序列同源性的结果表明,Cyclin A1在人、爪蟾与鱼类之间具有较高同源性;而在银鲫、彩鲫和金鱼之间,Cyclin A1仅在周期蛋白框外存在5个氨基酸的差异,且这些差异均是由个别碱基的变异造成的。       

Differential gene expression in fully-grown oocytes between gynogenetic and gonochoristic crucian carps.

Silver crucian carp (Carassius auratus gibelio) is a unique triploid bisexual species that can reproduce by gynogenesis. As all other gynogenetic animals, it keeps its chromosome integrity by inhibiting the first meiosis division (no extrusion of the first pole body). To understand the molecular events governing this reproduction mode, suppression subtractive hybridization was used to identify the genes differentially expressed in fully-grown oocytes of the gynogenetic and gonochoristic crucian carp (gyno-carp and gono-carp). From two specific subtractive cDNA libraries, the clones screened out by dot blots and virtual Northern blots were chosen to clone full-length cDNA by RACE. Four differentially expressed genes were obtained. Two are novel genes and are expressed specifically in the oocytes. The gyno-carp stores much more mRNA of cyclin A2, a new member of the fish A-type cyclin gene, in its fully-grown oocyte than in the gono-carp. The last gene is histone H2A. The histone H2As of these two closely related crucian carps are quite different in the C-terminus. Preliminary characterization of the four genes has been analyzed by nucleotide and deduced amino acid sequence and Northern analysis.     

The role of HIRA and maternal histones in sperm nucleus decondensation in the gibel carp and color crucian carp

The histone H3.3 chaperone HIRA is essential for chromatin assembly during male pronucleus formation in Drosophila. However, the role of HIRA during fertilization in vertebrates remains unclear. The gibel carp (Carassius auratus gibelio) is a unique gynogenetic crucian carp (gyno-carp). Heterologous sperm nuclei cannot decondense when incorporated in the egg, thus the eggs produce a clonal lineage of all females by typical gynogenesis. In contrast, after entering the egg, homologous sperm can undergo decondensation and sexual reproduction is activated, which may produce both female and male offspring. Therefore, this fish is a useful model for studying the mechanisms of fertilization. Herein, we first compared HIRA expression during embryogenesis between gyno-carp and the gonochoristic color crucian carp (Carassius auratus; gono-carp). In gono-carp, a dramatic reduction of HIRA protein occurs shortly after fertilization, whereas HIRA protein is consistently expressed during embryogenesis of gyno-carp. Next, we used immunodepletion and an in vitro sperm decondensation system, and found that complete removal of HIRA inhibited sperm decondensation in both of the fish. Immunofluorescence localization showed that in the condensed sperm nuclei of gono-carp incubated in gyno-carp egg extracts, HIRA was detected, but neither the histone H2A variant H2af1o nor acetylated histone H4 was observed. These results suggest that HIRA may be a critical factor required for sperm nucleus decondensation, while the defect in deposition of some maternal histones in the sperm nucleus could be one reason why heterologous sperm cannot decondense in the gibel carp egg.     

The cloning of Dmc1 cDNAs and a comparative study of its expression in different ploidy cyprinid fishes

Dmc1 (disrupted meiotic cDNA) is a functionally specific gene, which was firstly discovered in yeast and then found to encode a protein required for homologous chromosome synapsis during the process of meiosis. In this investigation, we cloned the partial cDNAs of Dmc1 of diploid red crucian carp, Japanese crucian carp, common carp, triploid crucian carp and allotetraploid hybrids by using a pair of degenerate primers based on the conservative sequence of amino acids of the DMC1 protein in yeast, mouse and human. The full length cDNAs were then obtained by rapid amplification of cDNA ends (RACE). Our data showed that the full length cDNAs of Dmc1 in the three diploid fishes are all 1375 bp long, while it is 1383 bp long in triploids and 1379 bp long in allotetraploids. And despite of the variation in length, all the cDNAs encode a protein of 342 amino acids. A high homology of 97.3% of the DMC1 protein can be drawn by comparing the amino acid sequences in the three diploids, which is also of 86%, 86% and 95% similarity to human, mouse and zebrafish, respectively. A comparative study of the expression pattern of Dmc1 was carried out by RT-PCR using specific primers against the same sequences of coding regions in different ploidy cyprinid fishes, from which it was showed that Dmc1 was expressed only in gonads of these five kinds of fishes. The expression pattern of Dmc1 in both ovaries and testes from different ploidy fishes within breeding season was also studied by Real-time PCR, and the results showed that the expression of this gene was greatly different among the three different ploidy fishes, which was the highest of triploid and lowest of allotetraploids. The histological sections data showed matured gonads of both diploid red crucian carp and allotetraploids in breeding season, although the latter demonstrated a higher maturation, and no gonadal maturation could be observed in triploids. In conclusion, we suggest that Dmc1 is specifically expressed in the period of meiosis in all the ploidy cyprinid fishes and directly related with the development of gonad in a manner of ploidy-independent way. And further, the high expression of Dmc1 in female triploids might be associated with abnormal meiosis and sterility.     

The cloning of Dmc1 cDNAs and a comparative study of its expression in different ploidy cyprinid fishes

Dmc1 (disrupted meiotic cDNA) is a functionally specific gene, which was firstly discovered in yeast and then found to encode a protein required for homologous chromosome synapsis during the process of meiosis. In this investigation, we cloned the partial cDNAs of Dmc1 of diploid red crucian carp, Japanese crucian carp, common carp, triploid crucian carp and allotetraploid hybrids by using a pair of degenerate primers based on the conservative sequence of amino acids of the DMC1 protein in yeast, mouse and human. The full length cDNAs were then obtained by rapid amplification of cDNA ends (RACE). Our data showed that the full length cDNAs of Dmc1 in the three diploid fishes are all 1375 bp long, while it is 1383 bp long in triploids and 1379 bp long in allotetraploids. And despite of the variation in length, all the cDNAs encode a protein of 342 amino acids. A high homology of 97.3% of the DMC1 protein can be drawn by comparing the amino acid sequences in the three diploids, which is also of 86%, 86% and 95% similarity to human, mouse and zebrafish, respectively. A comparative study of the expression pattern of Dmc1 was carried out by RT-PCR using specific primers against the same se-quences of coding regions in different ploidy cyprinid fishes, from which it was showed that Dmc1 was expressed only in gonads of these five kinds of fishes. The expression pattern of Dmc1 in both ovaries and testes from different ploidy fishes within breeding season was also studied by Real-time PCR, and the results showed that the expression of this gene was greatly different among the three different ploidy fishes, which was the highest of triploid and lowest of allotetraploids. The histological sections data showed matured gonads of both diploid red crucian carp and allotetraploids in breeding season, although the latter demonstrated a higher maturation, and no gonadal maturation could be observed in triploids. In conclusion, we suggest that Dmc1 is specifically expressed in the period of meiosis in all the ploidy cyprinid fishes and directly related with the development of gonad in a manner of ploidy-independent way. And further, the high expression of Dmc1 in female triploids might be associ-ated with abnormal meiosis and sterility.     

Molecular cloning and characterization of alpha-class glutathione S-transferase gene from the liver of silver carp, bighead carp, and other major Chinese freshwater fishes

Two full-length cDNAs encoding glutathione S-transferase (GST) were cloned and sequenced from the hepatopancreas of planktivorous silver carp (Hypophthalmichthys molitrix) and bighead carp (Aristichthys nobilis). The silver carp and bighead carp GST cDNA were 920 and 978 bp in length, respectively, and both contained an open reading frame that encoding 223 amino acids. Partial GST cDNA sequences were also obtained from the liver of grass carp (Ctenopharyngodon idellus), crucian carp (Carassius auratu), mud carp (Cirrhinus molitorella), and tilapia (Oreochromis nilotica). All these GSTs could be classified as alpha-class GSTs on the basis of their amino acid sequence identity with other species. The three-dimensional structure of the silver carp GST was predicted using a computer program, and was found to fit the classical two-domain GST structure. Using the genome walker method, a 875-bp 5'-flanking region of the silver carp GST gene was obtained, and several lipopolysaccharide (LPS) response elements were identified in the promoter region of the phytoplanktivorous fish GST gene, indicating that the GST gene expression of this fish might be regulated by LPS, released from the toxic blue-green algae producing microcystins. To compare the constitutive expression level of the liver GST gene among the six freshwater fishes with completely different tolerance to microcystins, beta-actin was used as control and the ratio GST/beta-actin mRNA (%) was determined as 130.7 +/- 6.6 (grass carp), 103.1 +/- 8.9 (bighead carp), 92.6 +/- 15.0 (crucian carp), 72.3 +/- 7.8 (mud carp), 58.8 +/- 11.5 (silver carp), and 33.6 +/- 13.7 (tilapia). The constitutive expression level of the liver GST gene clearly shows that all the six freshwater fishes had a negative relationship with their tolerance to microcystins: high-resistant fishes (phytoplanktivorous silver carp and tilapia) had the lowest tolerance to microcystins and the high-sensitive fish (herbivorous grass carp) had the highest tolerance to microcystins. Taken together with the reciprocal relationship of constitutive and inducible liver GST expression level in some of the tested fish species to microcystin exposure, a molecular mechanism for different microcystin detoxification abilities of the warm freshwater fishes was discussed.     

Molecular cloning and characterization of carp (Cyprinus carpio L.) CD8beta and CD4-like genes

Partial cDNA sequences of both CD8beta and CD4-like (CD4L) genes of common carp (Cyprinus carpio L.) were isolated from thymus cDNA library by the method of suppression subtractive hybridization (SSH). Subsequently the full length cDNAs of carp CD8beta and CD4L were obtained by means of 3' RACE and 5' RACE, respectively. The full length cDNA of carp CD8beta is 1164 bp and encodes 207 amino acids including a signal peptide region of 24 amino acids, a transmembrane region of 23 amino acids from aa 167 to aa189 and an immunoglobulin V-set from aa 19 to aa 141. Similar to other species CD8betas, carp CD8beta also lacks p56(lck) domain in the cytoplasmic region. The full length cDNA of carp CD4L is 2001 bp and encodes 458 amino acids including four immunoglobulin (Ig)-like domains in the extracellular region, a transmembrane region of 23 amino acids at the C-terminal region from aa 402 to aa 424 and a cytoplasmic tail. Similar to mammalian, avian CD4s and fugu CD4L, carp CD4L also has the conserved p56(lck) tyrosine kinase motif (C-X-C) in the cytoplasmic region. RT-PCR analysis demonstrated that carp CD8beta and CD4L genes were both expressed predominantly in thymus. The results from this study can be used to understand the evolution of both the CD8beta and CD4 molecules which can be used as markers for cytotoxic and helper T cells in carp.     

Molecular cloning and characterization of common carp (Cyprinus carpio L.) TCRgamma and CD3gamma/delta chains

Partial cDNA sequences of TCRgamma and CD3gamma/delta were isolated from the thymus of common carp (Cyprinus carpio L.) by the method of suppression subtractive hybridization (SSH). Subsequently the full length cDNAs of carp TCRgamma and CD3gamma/delta were obtained by means of 3' RACE and 5' RACE, respectively. The full length of carp TCRgamma chain is 1368bp and encodes 326 amino acids including a signal peptide region of 19 amino acids and a transmembrane region of 23 amino acids at the C-terminal region from aa 291 to 313. The V region of carp TCRgamma contains 109 amino acids, the core motif FGXG in J segment was also found in carp TCRgamma. The C region of carp TCRgamma contains the characteristic CX6PX6WX45C motif. The CP region of carp TCR Cgamma contains 37 amino acids. The full length of carp CD3gamma/delta is 790bp and encodes 175 amino acids including a signal peptide region of 17 amino acids and a transmembrane region of 23 amino acids from aa 93 to 115. Similar to other known CD3gamma/deltas, four cysteine residues in the extracellular domain and an immunoreceptor tyrosine-based activation motif ITAM (YxxL/Ix6-8YxxL/I) in the intracellular domain are also included in carp CD3gamma/delta. Differing from other known CD3gamma/deltas, carp CD3gamma/delta lacks the CXXCXE motif in the extracellular domain. RT-PCR analysis demonstrated that the expression of TCRgamma gene was mainly in the thymus and gill of 6-month carp, but in 18-month carp, TCRgamma gene was detected in all the examined tissues. The expression of CD3gamma/delta gene was detected in all examined tissues of 6 and 18-month carp; among them, the highest expression level was in the thymus of 6-month carp. In situ hybridization showed that CD3gamma/delta-expressing cells were widely distributed in the head kidney, spleen and kidney of carp, whereas in the thymus, they were densely distributed in the lymphoid outer zone and scattered in the epithelioid inner zone.     

Molecular cloning,structural analysis,and expression of carp ZP2 gene

The cDNAs encoding carp ZP2 homologous to winter flounder and mammalian ZP2 were cloned. Carp ZP2 contains a tandemly repetitive domain and a nonrepetitive domain. A repeat is composed of 13 amino-acid residues whose consensus sequence is QQTSQQFQPQKPA/V. The length of the repetitive domain is highly variable, but that of the nonrepetitive domain is fairly constant among various cDNAs. The termination codons of various cDNAs appear at three different positions. Three groups of cDNAs were therefore categorized. Groups I–III encode a nonrepetitive domain of 356, 255, and 10 residues, respectively. A carp ZP2 gene corresponding to group II cDNA was cloned. It spans 2.4 kb and consists of eight exons and seven introns. Carp ZP2 mRNA was detected only in oocytes but not in other tissues. Carp ZP2 is heterogenous in size. The molecular weight ranges from 40–80 kDa. It is present in vitellogenic but not in previtellogenic oocytes, nor in other tissues. Carp ZP2 content in oocytes increases as vitellogenesis proceeds. Mol. Reprod. Dev. 46:258–267, 1997. © 1997 Wiley-Liss, Inc.     

两种鲤鱼胰凝乳蛋白酶原基因的电子克隆及分析

为研究胰凝乳蛋白酶原在鱼类中的生理功能和作用机制,利用生物信息学的方法,成功获得了鲤鱼两种胰凝乳蛋白酶原的cDNA序列(ccCHTR1和ccCHTR2)并对其进行序列分析。结果显示,ccCHTR1 cDNA含有792 bp的开放阅读框,编码263个氨基酸;ccCHTR2 cDNA含有798 bp的开放阅读框,编码265个氨基酸。二者氨基端均含有18个氨基酸组成的信号肽,同时,在成熟肽的第15和16个氨基酸(R-I)之间存在一个切割位点。氨基酸比对结果显示,ccCHTR1和ccCHTR2具备胰凝乳蛋白酶原的保守结构特征,同时二者有72.8%的同源性,且都与斑马鱼有最高的同源性,分别是93.3%和73.5%。进化分析显示,二者分别与斑马鱼和鳕鱼亲缘关系最近,与哺乳动物的亲缘关系较远。     

4个棉花ADF基因的分子鉴定及其差异表达

肌动蛋白解聚合因子(actin-depolymerizing factor, ADF)是一种在真核生物中广泛存在的低分子量的肌动蛋白结合蛋白,它在调控细胞内肌动蛋白纤丝的解聚合和再聚合中起着关键作用。我们在棉纤维cDNA文库中分离克隆了4个ADF基因(cDNAs),分别命名为GhADF2,GhADF3,GhADF4,GhADF5。GhADF2 cDNA 长度为705 bp,编码139个氨基酸;GhADF3 cDNA长度为819 bp,编码139个氨基酸;GhADF4 cDNA长度为804 bp,编码143个氨基酸;GhADF5 cDNA长度为644 bp,编码141个氨基酸。分析表明,GhADF2与GhADF3的氨基酸序列同源性为99%。而且,GhADF2/3与矮牵牛PeADF2之间的氨基酸序列同源性也高达89%。GhADF4与拟南芥AtADF6的亲缘关系较近,二者的氨基酸序列同源性为78%。GhADF5与拟南芥AtADF5的亲缘关系较近,氨基酸序列的同源性为83%。上述结果表明植物ADF基因在进化中具有高度保守性。RT-PCR分析表明,GhADF2在纤维中优势表达,而GhADF5基因则在子叶中表达量最高。另一方面,GhADF3和GhADF4似乎不具有组织特异性或偏爱性表达。同一组织中不同GhADF基因表达量有较大的差异,表明它们可能涉及棉花不同组织生长发育过程的调节。而且,在进化过程中,各ADF同分异构体之间可能发展形成某种功能上的差异性。     

鲢鱼可溶性谷胱甘肽S-转移酶(sGST)基因cDNA全序列与5′调控区的克隆与分析

淡水鱼类可溶性谷胱甘肽S-转移酶(sGST)在微囊藻毒素去毒代谢过程中具有独特 的关键作用,因而也称为微囊藻毒素去毒酶. 从淡水食毒藻鱼类鲢鱼(Hypophthalmichthys molitrix)肝脏通过简并引物克隆微囊藻毒素去毒酶基因cDNA核心序列,应用5′RACE和3′RACE技术分别扩增该序列的5′末端和3′末端序列,最后通过序列拼接获得鲢鱼肝脏微囊藻毒素去毒酶基因cDNA全序列. 序列分析结果表明,鲢鱼肝脏微囊藻毒素去毒酶基因cDNA全长920 bp,其中5′-UTR长74 bp,3′-UTR长174 bp,编码区长672 bp,编码223个氨基酸. 应用基因组步行法,在鲢鱼克隆得到淡水鱼类微囊藻毒素去毒酶基因5′侧翼区878 bp序列. 与哺乳动物及海水鱼sGST基因不同,鲢鱼微囊藻毒素去毒酶基因的5′侧翼区,发现存在多个脂多糖反应元件(LPSRE),表明来源于毒藻的脂多糖可能对鲢鱼微囊藻毒素去毒酶基因表达有潜在调控作用.