Cloning of Japanese flounder Paralichthys olivaceus CD3 cDNA and gene, and analysis of its expression

Two distinct CD3 homologue cDNAs, CD3-1 and CD3-2, were isolated from a Japanese flounder leukocyte cDNA library. CD3-1 consisted of 961 bp encoding 178 amino acid residues, and CD3-2 consisted of 927 bp encoding 182 amino acid residues. The two deduced amino acid sequences had an identity of 95.1%, and neither had N-linked glycosylation sites. The identities between the Japanese flounder CD3s and previously reported CD3s (CD3 epsilon, CD3 gamma, or CD3 delta) of Xenopus laevis, chicken, and various mammals were approximately 25%. The Japanese flounder CD3s had an extracellular domain, a CXXCXE motif, and an immunoreceptor tyrosine-based activation motif (ITAM), each of which are important characteristics of CD3 chains. Furthermore, the positions of four cysteine residues in the extracellular domain were preserved in both of the Japanese flounder CD3s. A phylogenetic tree based on the amino acid sequences confirmed that the Japanese flounder CD3s are closer to CD3 epsilon than to CD3 gamma and CD3 delta. However, the gene structure of Japanese flounder CD3 is identical to the chicken and Xenopus CD3 gamma/delta genes and the mammalian CD3 delta gene. Southern blot hybridization and the DNA sequence of the CD3 gene of homocloned Japanese flounder indicated that the CD3 gene exists as a single copy. Southern blot hybridization also showed the presence of a polymorphic variant of Japanese flounder CD3. An RT-PCR analysis detected Japanese flounder CD3 mRNA in several organs that contained lymphocytes. The proportion of CD3-positive cells in the peripheral blood leukocytes was 34.9%.     

Identification of cDNAs encoding two subtypes of vitamin D receptor in flounder, Paralichthys olivaceus

cDNAs encoding two subtypes of the vitamin D receptor (VDR) are cloned from a teleost (flounder, Paralichthys olivaceus). This is the first report of VDR subtypes in fish. Flounder VDR (fVDR) a and b share 86% identity at the amino acid level. With human (h), rat, mouse, quail, and Xenopus VDRs, fVDRa shares 72%, 71%, 71%, 69%, and 71% identity, and fVDRb shares 70%, 69%, 69%, 67%, and 68% identity, respectively. The peptide sequences of the DNA-binding domain (DBD) and hormone-binding domain (HBD) of both subtypes have particularly high homology to those of the tetrapods; e.g. 92% identity for DBP and 74% for HBD between fVDRa and hVDR. In an evolutionary tree constructed with peptide sequences of VDRs and related members of the nuclear receptor superfamily, fVDRa and b are more closely related to each other than to other molecules, and situated in the cluster of VDRs at a position which corresponds well with the evolutional position of fish in the vertebrates. Additional independent genome duplication which is thought to have occurred in ray-finned fish phylogeny may explain the existence of two subtypes of VDR in flounder.     

Molecular cloning, characterization, and expression of TNF cDNA and gene from Japanese flounder Paralychthys olivaceus

We cloned a cDNA and the gene for Japanese flounder TNF. The TNF cDNA consisted of 1217 bp, which encoded 225 amino acid residues. The identities between Japanese flounder TNF and members of the mammalian TNF family were approximately 20-30%. The positions of cysteine residues that are important for disulfide bonds were conserved with respect to those in mammalian TNF-alpha. The Japanese flounder TNF gene has a length of approximately 2 kbp and consists of four exons and three introns. The positions of the exon-intron junction positions of Japanese flounder TNF gene are similar to those of human TNF-alpha. However, the length of the first intron of Japanese flounder is much shorter than that of the human TNF-alpha gene. There are simple CA or AT dinucleotide repeats in the 5'-upstream and 3'-downstream regions of the Japanese flounder TNF gene. Southern blot hybridization indicted that Japanese flounder TNF exists as a single copy. Expression of Japanese flounder TNF mRNA is greatly induced after stimulation of PBLs with LPS, Con A, or PMA. These results indicated that Japanese flounder TNF is more like mammalian TNF-alpha than mammalian lymphotoxin-alpha, with respect to its gene structure, length of amino acid sequence, number and position of cysteine residues, and regulation of gene expression.     

Cloning and characterisation of a cDNA encoding Japanese flounder Paralichthys olivaceus IgD

A cDNA containing the gene for Japanese flounder IgD consisted of 3240 bp encoding 998 amino acid residues. The amino acid sequence of the constant region of Japanese flounder IgD shares 38-80% identity with the sequences of previously reported teleost IgDs. The structure of the constant region of Japanese flounder IgD, which contains the micro1, delta1, delta2, delta3, delta4, delta5, delta6, delta7, and TM regions, is similar to the structures of the constant regions of the IgDs of channel catfish and Atlantic salmon. Southern blot hybridisation showed that the Japanese flounder IgD gene exists as a single locus. The Japanese flounder IgD gene was mainly detected in peripheral blood leucocytes (PBLs) and small amounts were detected in the spleen, head and trunk kidney, although IgM mRNA was detected in similar amounts in PBLs, the head kidney, and spleen. The copy number of IgM mRNA in Japanese flounder PBL was 56-fold higher than that of IgD.     

Characterization of Japanese flounder (Paralichthys olivaceus) NK-lysin, an antimicrobial peptide

The NK-lysin cDNA of Japanese flounder, Paralichthys olivaceus, consists of 657bp, containing an open reading frame (ORF) of 444bp, which encodes 147 amino acid residues. The amino acid sequence of Japanese flounder NK-lysin has 21% identity to porcine NK-lysin and bovine NK-lysin, 23% to equine NK-lysin, and 46% to zebrafish NK-lysin-like protein. Multiple alignments of Japanese flounder NK-lysin and other known saposin-like proteins revealed that the six cysteine residues important for structural folding are completely conserved. The Japanese flounder NK-lysin gene is approximately 2kb and consists of five exons and four introns. Japanese flounder NK-lysin mRNA constitutive expression was mainly detected in gills, heart, head kidney, intestines, peripheral blood leukocytes (PBLs), spleen and trunk kidney, and was detected at low levels in liver, muscle and ovary. However, expression was not detected in brain, skin and stomach of apparently healthy Japanese flounder. Gene expression of Japanese flounder NK-lysin was not inducible by lipopolysaccharide (LPS) treatment. A synthesized NK-lysin peptide, consisting of 27 amino acid residues, showed antimicrobial activity against Escherichia coli, Klebsiella pneumoniae, Pseudomonas aeruginosa, and Photobacterium damselae subsp. piscicida.     

Cloning of thyroid hormone receptor genes expressed in metamorphosing flounder

Two distinct cDNAs encoding thyroid hormone receptors (THRs) were cloned from a λ gtl0 library prepared from the whole bodies of metamorphosing flounder larvae (Paralichfhys olivaceus). Deduced amino acid sequences of the two isolated cDNAs shared 96% and 92% homologies in their DNA- and hormone-binding domains, respectively. These were highly conserved when compared to THRs for other vertebrates: 88–96% in the DNA-binding domain and 84–94% in the hormone-binding domain. Other receptors in the nuclear receptor family showed lower homologies than those of THRs. Both THRs for the flounder had higher homologies with the α-type THRs of other vertebrates than with the β-type. Thus, the two THRs for flounder were designated as fTHRαA and fTHRαB. © 1994 Wiiey-Liss, Inc.     

Molecular analysis of complement component C8β and C9 cDNAs of Japanese flounder, Paralichthys olivaceus

 The amino acid sequences of the human terminal complement components show extensive structural similarity to each other. In this study the C8β and C9 cDNAs of Japanese flounder, Paralichthys olivaceus, were cloned and analyzed. The derived deduced amino acid sequences of the two terminal components were homologous to those of humans, in that the sequences of both species contained LDL receptor, EGF precursor, and two thrombospondin domains. Japanese flounder C9 was found to have a second thrombospondin region in the C-terminus, similar to that reported for rainbow trout and pufferfish. Moreover, these two complement component cDNAs of Japanese flounder had partial similarity to human perforin. These findings show that Japanese flounder C8β and C9 have similar structures, which supports the hypothesis that the terminal complement genes originated from the same ancestral gene. Collectively, these features emphasize the strong similarity among the members of the terminal complement family. Received: 23 March 1999 / Revised: 1 June 1999     

Characterization of manganese peroxidases from the hyperlignolytic fungus IZU-154.

Four isozymes of manganese peroxidase (MnP) were identified in the culture fluid of the hyperlignolytic fungus IZU-154 under nitrogen starvation conditions. One of them was purified and characterized kinetically. The specific activity and Kcat/K(m) value of the MnP from IZU-154 were 1.6 times higher than those of the MnP from a typical lignin-degrading fungus, Phanerochaete chrysosporium. Two cDNAs encoding MnP isozymes from IZU-154 were isolated. The coding sequence of the two cDNAs, IZ-MnP1 cDNA and IZ-MnP2 cDNA, were 1,152 (384 amino acids) and 1,155 (385 amino acids) bp in length, respectively. They exhibit 96.2% identity at the nucleotide level and 95.1% identity at the amino acid level. Southern blot analysis indicated that two MnP isozyme genes exist in IZU-154 genomic DNA. The primary structures of two MnPs from IZU-154 were similar to those of MnPs from P. chrysosporium. The amino acid sequences including the important residues identified in MnPs from P. chrysosporium, such as the manganese-binding residues, the calcium-binding residues, the disulfide bonds, and the N-glycosylation site, were conserved in the two deduced IZ-MnPs. However, several discrepancies were found in the context around the distal histidine residue between MnP from IZU-154 and MnP from P. chrysosporium, which likely led to the difference in the kinetic parameters for MnP function.     

Isolation and characterization of somatolactin, a new protein related to growth hormone and prolactin from Atlantic cod (Gadus morhua) pituitary glands

The characterization of cod somatolactin (SL), a new pituitary protein belonging to the growth hormone/prolactin family, is described. Cod SL has a molecular weight of 26 kDa and consists of 209 amino acids, of which eight are Cys. The protein has three disulfide bonds between residues Cys5-Cys15, Cys65-Cys181, and Cys198-Cys206. The Cys residues at positions 42 and 180 are not involved in disulfide bonding. The positions of these disulfide bonds are homologous to those found in prolactin and growth hormone. Cod SL has two possible N-glycosylation sites, but only one appears to have carbohydrate units attached. Chemical analysis showed the following sugars to be present: galactose, mannose, N-acetylneuramic acid, and glucosamine. A smaller variant (23 kDa) of SL has been isolated, which is believed to be deglycosylated. Sequence comparison revealed cod SL to be similarly related to both GH and PRL, but slightly higher identity was observed to the tetrapod hormones (27-33%) than to the teleost hormones (21-27%).     

Purification and characterization of tributyltin-binding protein type 2 from plasma of Japanese flounder, Paralichthys olivaceus

We used gel filtration chromatography, anion-exchange chromatography and polyacrylamide gel electrophoresis to purify tributyltin-binding protein type 2 (TBT-bp 2) from plasma of Japanese flounder (Paralichthys olivaceus) injected intraperitoneally with TBT (5.0 mg/kg body weight). Sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicated that the molecular mass of TBT-bp 2 was approximately 48 kDa, and isoelectric focusing-polyacrylamide gel electrophoresis indicated that the isoelectric point was approximately 3.0. TBT-bp 2 contained 40% N-glycan. The complete cDNA nucleotide sequence and the genome sequence of TBT-bp 2 were determined by means of rapid amplification of cDNA ends of liver tissue of Japanese flounder and a genome-walking technique, respectively. The 216 amino acid sequence of TBT-bp 2 showed 47% identity to the sequences of puffer fish (Takifugu pardalis) saxitoxin- and tetrodotoxin-binding protein but only 27% similarity to the sequence of TBT-bp 1. Analysis of the motif sequence of the amino acid sequence and the structure of the gene encoding TBT-bp 2 suggested that this protein belongs to the lipocalin superfamily.     

Molecular cloning of stanniocalcin 1 and its extracorpuscular regulation by salinity and Ca2+ in the Japanese flounder

Stanniocalcin 1 (Stc1) was originally identified as an anti-hypercalcemic hormone produced by the corpuscles of Stannius (CS) associated with the kidney in teleosts. While the stc1 gene is expressed in various tissues in fishes, its role and regulation in extra-CS tissues are unexplored. In the present study, we characterized a cDNA of stc1 in a euryhaline fish, the Japanese flounder (Paralichyhus olivaceus), and examined its expression in peripheral tissues in response to different salinities and Ca2+ ion concentrations. The Japanese flounder stc1 cDNA (1331 bp) encodes a preprohormone of 251 amino acids (aa), with a signal peptide of 17 aa and a pro-sequence peptide of 15 aa followed by the mature protein of 219 aa. The deduced aa sequence of Japanese flounder stc1 showed highest sequence identity (94.0%) with the European flounder Stc1 among fish and mammalian species, but lower identity to zebrafish, pufferfish, and human STC2 (23.1-25.4%). Lowered environmental salinity resulted in a decrease in stc1 mRNA expression in vivo in the gills, kidney, intestine, and CS glands of the Japanese flounder. Furthermore, we found that extracellular Ca2+ increased steady-state stc1 mRNA levels in gill and kidney cells as well as in the CS cells. Our findings suggest that Stc1 synthesis in the ionregulatory tissues is responsive to environmental salinity and Ca2+ level.     

Trypsinogen-like cDNAs and quantitative analysis of mRNA levels from the Indianmeal moth, Plodia interpunctella

Two cDNA fragments encoding full-length trypsinogen-like proteins were cloned from larvae of two strains (RC688s and HD198r) of the Indianmeal moth, Plodia interpunctella (Hübner), which differed in their sensitivity to Bacillus thuringiensis protoxins. One cDNA fragment contained 874 nucleotides, including a 780-nucleotide open reading frame that encoded a trypsinogen-like protein (PiT2b). Another cDNA fragment amplified from both P. interpunctella strains contained 864 nucleotides including a 780 bp open reading frame encoding a second trypsinogen-like protein (PiT2c). The cDNA sequence of PiT2b shared 89% sequence identity with PiT2a, a trypsinogen-like protein cloned previously from this species. The cDNA sequences of PiT2a and PiT2c shared 83% identity. The cDNA sequence identity between PiT2b and PiT2c was 80%. The cDNA for PiT2b from strain RC688s was different at six nucleotide positions from that of PiT2b from strain HD198r. Five nucleotide replacements occurred in the open reading frame leading to amino acid changes at all five positions. There were five nucleotide differences in the cDNAs for PiT2c trypsinogen-like proteins from the two strains. Two nucleotide substitutions in the open reading frame resulted in replacements of two amino acid residues in the deduced protein sequences. Amino acid sequences for PiT2a and PiT2b shared 84% identity, but only 50% identity was observed between PiT2c and the other two trypsinogen-like proteins. The deduced amino acid sequences for PiT2b and PiT2c included both signal and zymogen activation peptides and amino acid sequence motifs which are conserved in seven homologous trypsinogen-like proteins from other insects. Typical features of the putative trypsinogen-like proteins from P. interpunctella included the serine proteinase active site triad (His(81), Asp(133), and Ser(233)), three pairs of cysteine residues for disulfide bridges, and three residues, Asp(227), Gly(250), and Gly(260), that help to confer trypsin-like specificity to the enzymes. Quantitative RT-PCR analyses showed that, in fourth instar larvae, RC688s had 1.6-fold higher PiT2a trypsinogen-like mRNA than did HD198r. Expression of PiT2b mRNA was 3.4-fold higher in HD198r than in RC688s. Expression of PiT2c mRNA was 2.8-fold higher in RC688s than in HD198r. Mean accumulation levels of mRNAs for all three trypsinogen-like proteins were slightly higher in RC688s than in HD198r based on total RNA, and 1.3-fold higher in RC688s than in HD198r based on wet weight of larval body tissues.     

A homologue of human placental protein,PP11, and mouse T cell-specific protein,Tcl-30, in exocrine pancreas of a teleost (Paralichthys olivaceus)

We cloned a 1401-bp cDNA encoding a novel pancreatic protein (PPSB) with two cysteine-rich somatomedin B-like domains from Japanese flounder (Paralichthys olivaceus). PPSB is predicted to be composed of 385 amino acids, including a signal sequence. The peptide sequence shares high homology with human placental protein 11 (PP11) and mouse T-cell specific protein (Tcl-30), which both contain a single somatomedin B-like domain. PPSB shares 47% and 44% identity with PP11 and Tcl-30, respectively. The unique point of PPSB is that an additional, somatomedin B-like domain is tandemly inserted. Unlike PP11 and Tcl-30, PPSB mRNA is specifically expressed by the exocrine pancreatic acinar cells, together with trypsinogen. Since PP11 has serine protease activity, it is predicted that its teleost homologue, PPSB, may function as a pancreatic digestive enzyme.     

Molecular cloning and cDNA sequence analysis of carboxypeptidases A1, A2 and B from the Japanese flounder Paralichthys olivaceus

Although pancreatic serine proteases have been cloned in teleosts, no sequence data are currently available on members of the carboxypeptidase (CP) family. Here, we cloned cDNAs coding for two preproCPAs, corresponding to mammalian preproCPA1 and preproCPA2, and one preproCPB from a pancreatic cDNA library of the Japanese flounder, Paralichthys olivaceus. The activation peptides of flounder proCPs completely retained the sequences for inhibition of enzymatic activity of proCPs just like mammalian proCPs. Of 306–309 amino acids in total, 95 amino acids are completely conserved between bovine CPA1 and CPB and flounder CPs. Notably, amino acid residues for Zn²⁺ ligands, catalysis and substrate anchoring are completely conserved between flounder and bovine CPs. Three species of flounder preproCPs are all expressed in the pancreas of first feeding larvae.     

Accelerated evolution of small serum proteins (SSPs)-The PSP94 family proteins in a Japanese viper

Five small serum proteins (SSPs) with molecular masses of 6.5-10 kDa were detected in Habu (Trimeresurus flavoviridis) serum; this included two novel proteins SSP-4 and SSP-5. The amino acid sequences of these proteins and of SSP-1, SSP-2, and SSP-3, which were reported previously, were determined on the basis of the nucleotide sequences of their cDNAs. Although these proteins exhibited only limited sequence identity to mammalian prostatic secretory protein of 94 amino acids (PSP94), the topological pattern of disulfide bonds in SSPs was identical to that of the mammalian proteins. SSP-3 and SSP-4 lacked approximately 30 residues at the C-terminal. Each of the full-length cDNAs encoded a mature protein of 62-90 residues and a highly conserved signal peptide. The evolutionary distances between SSPs estimated on the basis of the amino acid changes were significantly greater than those of the synonymous nucleotide substitutions; these finding, together with results from analyses of nonsynonymous to synonymous rates of change (dN/dS) suggest that snake SSPs have endured substantial accelerated adaptive protein evolution. Such accelerated positive selection in SSPs parallels other findings of similar molecular evolution in snake venom proteins and suggests that diversifying selection on both systems may be linked, and that snake SSP genes may have evolved by gene duplication and rapid diversification to facilitate the acquisition of various functions to block venom activity within venomous snakes.     

Purification, molecular cloning, and some properties of a manganese-containing superoxide dismutase from Japanese flounder (Paralichthys olivaceus)

Manganese-superoxide dismutase (Mn-SOD) from Japanese flounder (Paralichthys olivaceus) hepatopancreas has been purified with high purification (781-fold) and recovery (10.8%). The molecular mass of the purified enzyme was estimated to be 26kDa by SDS-PAGE under reducing conditions. In activity staining by native-PAGE, the Japanese flounder Mn-SOD gave three active bands and exhibited KCN-insensitive activity. In addition, the electrophoretic mobility of this enzyme was observed to be faster than that of Japanese flounder Cu,Zn-SOD. On the other hand, the N-terminal amino acid sequence of this Mn-SOD was determined to be 16 amino acid residues, and the sequence showed high homology to other Mn-SODs but not Japanese flounder Cu,Zn-SOD. Analysis of nucleotide and deduced amino acid sequences revealed that the Mn-SOD cDNA consisted of a 64bp 5'-non-coding region, a 675bp open reading frame encoding 225 amino acids, and a 465bp 3'-non-coding region. The first 27 amino acids containing a mitochondria-targeting signal were highly conserved among other Mn-SODs.     

The BSP30 salivary proteins from cattle,LUNX/PLUNC and von Ebner's minor salivary gland protein are members of the PSP/LBP superfamily of proteins

Saliva influences rumen function in cattle, yet the biochemical role for most of the bovine salivary proteins (BSPs) has yet to be established. Two cDNAs (BSP30a and BSP30b) from bovine parotid salivary gland were cloned and sequenced, each coding for alternate forms of a prominent protein in bovine saliva. The BSP30 cDNAs share 96% sequence identity with each other at the DNA level and 83% at the amino acid level, and appear to arise from separate genes. The predicted BSP30a and BSP30b proteins share 26-36% amino acid identity with parotid secretory protein (PSP) from mouse, rat and human. BSP30 and PSP are in turn more distantly related to a wider group of proteins that includes lung-specific X protein, also known as palate, lung, and nasal epithelium clone (LUNX/PLUNC), von Ebner's minor salivary gland protein (VEMSGP), bactericidal permeability increasing protein (BPI), lipopolysaccharide binding protein (LBP), cholesteryl ester transfer protein (CETP), and the putative olfactory ligand-binding proteins RYA3 and RY2G5. Bovine cDNAs encoding homologs of LUNX/PLUNC and VEMSGP were isolated and sequenced. Northern blot analysis showed that LUNX/PLUNC, BSP30 and VEMSGP are expressed in bovine salivary tissue and airways, and that they have non-identical patterns of expression in these tissues. The expression of both BSP30a and BSP30b is restricted to salivary tissue, but within this tissue they have distinct patterns of expression. The proximity of the human genes coding for the PSP/LBP superfamily on HSA20q11.2, their similar amino acid sequence, and common exon segmentation strongly suggest that these genes evolved from a common ancestral gene. Furthermore, they imply that the BSP30a and BSP30b proteins may have a function in common with other members of this gene family.