Divergent evolution of the myosin heavy chain gene family in fish and tetrapods: evidence from comparative genomic analysis.

Myosin heavy chain genes (MYHs) are the most important functional domains of myosins, which are highly conserved throughout evolution. The human genome contains 15 MYHs, whereas the corresponding number in teleost appears to be much higher. Although teleosts comprise more than one-half of all vertebrate species, our knowledge of MYHs in teleosts is rather limited. A comprehensive analysis of the torafugu (Takifugu rubripes) genome database enabled us to detect at least 28 MYHs, almost twice as many as in humans. RT-PCR revealed that at least 16 torafugu MYH representatives (5 fast skeletal, 3 cardiac, 2 slow skeletal, 1 superfast, 2 smooth, and 3 nonmuscle types) are actually transcribed. Among these, MYH(M743-2) and MYH(M5) of fast and slow skeletal types, respectively, are expressed during development of torafugu embryos. Syntenic analysis reveals that torafugu fast skeletal MYHs are distributed across five genomic regions, three of which form clusters. Interestingly, while human fast skeletal MYHs form one cluster, its syntenic region in torafugu is duplicated, although each locus contains just a single MYH in torafugu. The results of the syntenic analysis were further confirmed by corresponding analysis of MYHs based on databases from Tetraodon, zebrafish, and medaka genomes. Phylogenetic analysis suggests that fast skeletal MYHs evolved independently in teleosts and tetrapods after fast skeletal MYHs had diverged from four ancestral MYHs.     

Structure and sequence of the myosin alkali light chain gene expressed in adult cardiac atria and fetal striated muscle

Mammalian cardiac muscle contains two myosin alkali light chains which are the major isoforms present in either atrial (MLC1A) or ventricular (MLC1V) muscle, and which are different from the fast skeletal muscle isoforms (MLC1F and MLC3F). The atrial isoform is also expressed in fetal skeletal and fetal ventricular muscle, where this isoform is also described as the fetal isoform MLC1emb. We have previously isolated a cDNA clone encoding part of the mouse MLC1A/MLC1emb isoform and have used this clone to demonstrate the identity of MLC1A and MLC1emb in the mouse. To date no information on the amino acid sequence of this mammalian atrial/fetal isoform has been available. Here we present the complete structure and sequence of the mouse MLC1A/MLC1emb gene, together with the predicted amino acid sequence of this isoform. Comparison of the MLC1A/MLC1emb gene and polypeptide with those of MLC1F and MLC1V suggests that MLC1A/MLC1emb and MLC1V were generated from a common ancestral gene. The NH2-terminal region of MLC1A/MLC1emb, thought to be involved in the actomyosin interaction, shows conservation with MLC1V but not with MLC1F suggesting a shared functional domain in these cardiac isoforms. Comparison with the chicken embryonic MLC (L23) suggests that although MLC1A/MLC1emb and L23 show very different patterns of expression, both during development and in the adult, they probably represent the homologous gene in these two species.     

Characterization of the carp myosin heavy chain multigene family

We isolated partial coding sequences for 29 carp myosin heavy chain genes (MyoHCs) and determined the nucleotide sequences around the region encoding the loop 2 of the myosin molecule. The predicted amino acid sequences from the isolated genes all showed very high similarity to those of skeletal and cardiac muscles from higher vertebrates, but not to those of smooth and non-muscle counterparts. Among all clones isolated, carp MyoHC10, MyoHCI-1-3 and MyoHC30 showed exon-nucleotide sequences identical to those of cDNAs encoding the loop 2 region of the 10 degrees C-, intermediate- and 30 degrees C-type fast skeletal isoforms [Hirayama and Watabe, Euro. J. Biochem. 246 (1997) 380-387]. The loop 2 of 28 types of carp MyoHCs was encoded by two exons separated by an intron corresponding to that of the 16th in higher vertebrate MyoHCs, whilst this intron was not found in carp MyoHC30. Although carp MyoHC30 had a gene organization different from those of higher vertebrates and other carp MyoHCs, its predicted amino acid sequence for loop 2 showed the highest homology to those of higher vertebrates among carp MyoHCs. In the 28 carp MyoHCs containing the intron, a combination of different nucleotide sequences for the two resulted in 14 distinct series for the combined coding sequence. These different nucleotide sequences encoded nine distinct amino acid sequences. Phylogenetic analysis for the present loop 2 and light meromyosin previously reported for carp MyoHCs [Imai et al., J. Exp. Biol. 200 (1997) 27-34] revealed that carp MyoHCs have recently diverged and are more closely related to each other than to MyoHCs from other species.     

Structural differences in the motor domain of temperature-associated myosin heavy chain isoforms from grass carp fast skeletal muscle

We determined coding sequences for three types of grass carp myosin subfragment-1 (S1) heavy chain by extending 5′-regions of the three known genes encoding light meromyosin isoforms (10 °C, intermediate and 30 °C types). The primary structures of these three S1 heavy chain isoforms showed 81.4%, 81.2%, and 97.8% identities between the 10 °C and intermediate types, between the 10 °C and 30 °C types, and between the intermediate and 30 °C types, respectively. Isoform-specific differences were clearly observed between the 10 °C type and the other two types in 97 amino acid residues. Furthermore, among these amino acid mutations, 51 mutations occurred at the conserved residue sites of S1 heavy chain from fish and homoiotherm. Additionally, the 10 °C type showed striking differences compared with the other two types in the two surface loops, loop 1 located near the ATP-binding pocket and loop 2, which is one of the actin-binding sites, suggesting that such structural differences possibly affect their motor functions. Interestingly, this 10 °C-type myosin heavy chain isolated from adult grass carp skeletal muscle was surprisingly similar to the embryonic fast-type myosin heavy chain from juvenile silver carp in the structure of S1 heavy chain, indicating that it may also function as embryonic fast-type myosin heavy chain in juvenile stage.     

Transition of myosin isozymes during development of human masseter muscle. Persistence of developmental isoforms during postnatal stage

Previous results have shown that the adult human masseter muscle contains myosin isoforms that are specific to early stages of development in trunk and limb muscles, i.e. embryonic and fetal (neonatal) myosin heavy chains (MHC) and embryonic myosin light chain (MLC1emb). We wanted to know if this specific pattern is the result of a late maturation or of a distinct evolution during development. We show here that the embryonic and the fetal MHC and the MLC1emb are expressed throughout perinatal and postnatal masseter development. Our results also demonstrate that MLC1emb accumulation increases considerably during the postnatal period. In addition, both the slow MLCs and the slow isoform of tropomyosin are expressed later in the masseter than quadriceps and the fast skeletal muscle isoform MLC3 is not detected during fetal and early postnatal development in the masseter whereas it is expressed throughout fetal development in the quadriceps. Our results thus confirm previous histochemical data and demonstrate that the masseter muscle displays a pattern of myosin and tropomyosin isoform transitions different to that previously described in trunk and limb muscles. This suggests that control of masseter muscle development involves mechanisms distinct from other body muscles, possibly as a result of either its craniofacial innervation or of a possibly different embryonic origin.     

The complement component C5 of the common carp (<Emphasis Type="Italic">Cyprinus carpio</Emphasis>): cDNA cloning of two distinct isotypes that differ in a functional site

The complement component C5 plays important roles in inflammatory responses and complement-mediated cytolysis. In bony fish, although C5 has been identified at the DNA or the protein level in trout, carp and gilthead seabream, only partial C5 sequences are available. The present study was designed to obtain the complete primary structure of C5 from the common carp ( Cyprinus carpio) and to examine its possible structural diversity. Reverse-transcribed polymerase chain reaction amplification from carp hepatopancreatic RNA resulted in isolation of six distinct C5-like cDNA segments, which were grouped into two divergent types (type I and type II). Using two sequences representative of the two types as probes, two distinct full-length cDNA clones (C5-1 and C5-2) were isolated, in addition to a truncated isoform of C5-1 (C5-1'). The deduced amino acid sequences of C5-1 and C5-2 share 83% identity and predict a typical two-chain structure of the mature protein that lacks the thioester bond, as in C5 from other animals. Southern hybridization of genomic DNA suggested the presence of multiple genes encoding C5-type I and a single gene encoding C5-type II. Interestingly, carp C5-type I contains novel subtypes like C5-1 that have a histidine instead of the well-conserved arginine at the cleavage site for the C5 convertase, both in the complete and truncated forms. Northern blotting analysis suggested that C5-type I and C5-type II are mainly expressed in hepatopancreas, and the expression levels are significantly increased by stimulating carp with lipopolysaccharide or beta-1,3-glucan. Possible functional divergence among the C5 isotypes in carp is discussed.     

Cloning of a novel gene specifically expressed in clonal mouse chondroprogenitor-like EC cells, ATDC5

We cloned a full-length cDNA encoding a novel mouse protein, A-C2, by differential display method using mouse embryonic fibroblast C3H10T1/2 cells and mouse chondroprogenitor-like EC cells, ATDC5. The deduced amino acid sequence of A-C2 consisted of 106 amino acids with no significant homology to the sequences previously reported. Northern blot analysis showed two major bands of 2.1 and 1.8 kb sizes. Expression of A-C2 mRNA was exclusive to ATDC5 cells at their undifferentiated stage. None of ATDC5 cells at their differentiated stage and adult mice tissues examined expressed A-C2 gene.     

草鱼TRIM32基因克隆表达及功能研究

TRIM (Tripartite-motif protein) 家族是机体先天性免疫的重要成员, 参与细胞增殖分化、细胞凋亡、肿瘤抑制、抗病毒等过程。为了进一步探究TRIM蛋白在鱼类免疫中的作用, 实验利用PCR方法克隆了草鱼TRIM32基因的编码区全长, 共1980 bp, 编码660个氨基酸。草鱼TRIM32具有TRIM家族典型的3个结构域, 与斑马鱼TRIM32的核苷酸序列同源性较高, 遗传进化分析也聚为一支。间接免疫荧光、Western-blotting检测结果显示草鱼TRIM32在EPC细胞中成功表达, 主要以点状分布在细胞质中, 细胞核中表达量较少; 组织分布分析表明TRIM32在被检测的11个组织中均有表达, 其中在头肾组织中的表达量明显高于其他组织; 不同胚胎发育时期的表达分析进一步表明, TRIM32在受精卵时期、卵裂期和囊胚期的表达量显著高于其他时期(P<0.05), 随后表达量下降, 直到出膜后表达量再次显著性升高。此外, 双荧光素酶检测系统显示TRIM32能够激活NF-κB信号通路, 诱导下游的炎症反应。结果显示, 草鱼TRIM32广泛分布于鱼体内, 并参与机体的天然免疫反应, 对于抵抗病原体的入侵具有重要作用。     

Molecular characterization of D-amino acid oxidase from common carp Cyprinus carpio and its induction with exogenous free D-alanine

A full-length cDNA encoding D-amino acid oxidase (DAO, EC 1.4.3.3) was cloned and sequenced from the hepatopancreas of carp fed a diet supplemented with D-alanine. This clone contained an open reading frame encoding 347 amino acid residues. The deduced amino acid sequence exhibited about 60 and 19-29% identity to mammalian and microbial DAOs, respectively. The expression of full-length carp DAO cDNA in Escherichia coli resulted in a significant level of protein with DAO activity. In carp fed the diet with D-alanine for 14 days, DAO mRNA was strongly expressed in intestine followed by hepatopancreas and kidney, but not in muscle. During D-alanine administration, DAO gene was expressed quickly in hepatopancreas with the increase of DAO activity. The inducible nature of carp DAO indicates that it plays an important physiological role in metabolizing exogenous D-alanine that is abundant in their prey invertebrates, crustaceans, and mollusks.     

鲤鱼sGnRH基因克隆及其在成熟个体的表达分析

采用RACE方法,从鲤鱼脑组织克隆了两个差异的sGnRH(salmon GnRH[Trp^7Leu^8]GnRH)cDNAs,即cDNA1和cDNA2,其长度分别为393和478bp。两个cDNAs都包括一个285bp开放阅读框,编码的sGnRH前体为94个氨基酸残基,由一个信号肽、sGnRH十肽和一个由蛋白水解位点(Gly-Lys-Arg)连接的促性腺激素释放激素相关肽共3部分组成。用内含子捕获得到相应的两个差异sGnRH基因,即sGnRH genel和gene2,其基本结构都包括4个外显子和3个内含子,3个内含子的核苷酸相似性分别为71．1％、76．1％和88．0％。鲤鱼sGnRH cDNAs及基因的基本结构和编码特点与已报道的不同形式GnRH cDNAs和GnRH基因相似,由此推测所有类型的GnRH可能来自一个共同的祖分子。Southern杂交进一步证实鲤鱼基因组存在两个不同的sGnRH基因座位。相对定量RT-PCR检测发现,两个sGnRH基因除在精巢的表达存在差异外,在脑区、垂体和成熟卵巢共表达。其中两个sGnRH基因在端脑和下丘脑的表达水平明显高于后脑区。根据sGnRH mRNAs在多个脑区、性腺和垂体的共存推测,sGnRH可能对鲤鱼下丘脑-垂体-性腺轴的调节有至关重要作用,同时可能起神经调节剂或自分泌和旁分泌调节因子的作用。     

Identification of immune-relevant genes by expressed sequence tag analysis of head kidney from grass carp (Ctenopharyngodon idella)

Grass carp is the third largest aquaculture species in global production. However, genomic research of this species has been limited. To identify immune-related genes in grass carp, a normalized full-length cDNA library was constructed from head kidney tissues, and 6432 randomly selected clones were sequenced. 5289 high quality expressed sequence tags (EST) were generated and assembled into 2687 unigenes. Among them, 1585 unigenes showed significant similarity with known sequences in public databases, whereas the remaining 1102 unigenes appeared to be novel sequences with unknown functions. In particular, 136 immune-related genes were identified to encode immunoglobulins, FcRγ, IFN-related proteins, various CD markers, MHCs, complements and other important immune-related factors; a majority of these genes are reported in grass carp for the first time. Sequence analysis indicated that grass carp has at least three subtypes of immunoglobulin light chains, namely L1, L2 and L3. Furthermore, FCRγ was found to broadly express in different tissues. Our study constitutes the first EST analysis of lymphatic tissue in grass carp, and could pave the way for further research of immune-related genes and functional genomics in grass carp.     

Structural conservation and food habit-related liver expression of uncoupling protein 2 gene in five major Chinese carps

The full-length cDNA of grass carp (Ctenopharyngodon idellus) and silver carp (Hypophthalmichthys molitrix) uncoupling protein 2 (UCP2) was obtained from liver. The grass carp UCP2 cDNA was determined to be 1152 bp in length with an open reading frame that encodes 310 amino acids. Five introns (Intron 3, 4, 5, 6 and 7) in the translated region, and partial sequence of Intron 2 in the untranslated region of grass carp UCP2 gene were also obtained. Gene structure comparison between grass carp and mammalian (human and mouse) UCP2 gene shows that, the UCP2 gene structure of grass carp is much similar to that of human and mouse. Partial UCP2 cDNA sequences of bighead carp (Aristichthys nobilis) and mud carp (Cirrhinus molitorella), were further determined. Together with the common carp (Cyprinus carpio) UCP2 sequence from GenBank (AJ243486), multiple alignment result shows that the nucleotide and amino acid sequences of the UCP2 gene, were highly conserved among the five major Chinese carps that belong to four subfamilies. Using beta-actin as control, the ratio UCP2/beta-actin mRNA (%) was determined to be 149.4 +/- 15.6 (common carp), 127.4 +/- 22.1(mud carp), 96.7 +/- 12.7 (silver carp), 94.1 +/- 26.8 (bighead carp) and 63.7 +/- 16.2 (grass carp). The relative liver UCP2 expression of the five major Chinese carps, shows a close relationship with their food habit: benthos and detritus-eating fish (common carp and mud carp) > planktivorious fish (silver carp and bighead carp) > herbivorous fish (grass carp). We suggest that liver UCP2 might be important for Chinese carps to detoxify cyanotoxins and bacteria in debris and plankton food.     

鲤鱼肝胰脏cDNA 文库的表达序列标签分析及Lb-Fabp mRNA的特征

本文构建了鲤鱼肝胰脏cDNA 文库,共获得了1016条有效的表达序列标签。拼接组装成115 个contigs和282 个singletons。其中215个拼接序列在GenBank公共数据库中寻找到相对应的基因。对它们进行功能性分类和比较分析为鲤鱼肝胰脏的研究提供了基因表达信息的基础。文库中1016条表达序列标签有11条代表了鲤鱼肝基本型脂肪酸结合蛋白(Lb-FABP)。通过序列比较我们获得了两个具有相同开放阅读框长度的Lb-Fabp cDNAs。开放阅读框全长381bp,编码126个氨基酸。半定量RT-PCR结合Southern blot技术研究了Lb-Fabp mRNA 在成鱼不同组织以及早期发育不同时期的表达图式。结果表明,Lb-Fabp mRNA 在肝胰脏、中肠和后肠中表达量较高。同时在精巢和皮肤中有低水平的表达。脑、肌肉、卵巢、肾脏、脾脏、鳃和心脏等组织中其表达量更低。而在脂肪和前肠中则没有检测到Lb-FabpmRNA表达。Lb-Fabp mRNA 最早在胚体形成期检测到有低水平表达,随后的发育阶段中表达量逐渐升高。鲤鱼Lb-Fabp基因的表达图式提示在肝脏和肠等器官开始发育后,它可能在脂肪代谢中具有重要作用。