Identification of a cDNA encoding an isoform of human CTP synthetase

A full-length cDNA clone encoding an isoform of human CTP synthetase (type II) was isolated. A 1761-nucleotide open reading frame which corresponds to a protein of 586 amino acids with a predicted molecular mass of 65678 Da was identified. The predicted protein sequence showed 74% identity with the translation product of a previously identified human CTP synthetase cDNA clone (type I). The function of the human cDNA encoding type II CTP synthetase was verified by successful complementation of the cytidine-requiring CTP synthetase deficient mutant JF618 of Escherichia coli. The gene encoding type II CTP synthetase has been localized on chromosome Xp22.     

The core region of human glutaminyl-tRNA synthetase homologies with the Escherichia coli and yeast enzymes.

We have isolated from a Lambda-gt 11 library a human cDNA clone with one open reading frame of about 2400 bases. A stretch of about 350 amino acids in the deduced amino acid sequence is up to 40 percent identical with parts of the known amino acid sequences of E. coli and yeast glutaminyl (Gln)-tRNA synthetase. The isolated cDNA sequence corresponds to an internal section of a 5500 bases long mRNA that codes for a 170 kDa polypeptide associated with Gln-tRNA synthetase. Thus, the human enzyme is about three times larger than the E. coli and two times larger than the yeast Gln-tRNA synthetase. The three enzymes share an evolutionarily conserved core but differ in amino acid sequences linked to the N-terminal and C-terminal side of the core.     

Isolation of two cDNAs encoding functional human cytoplasmic cysteinyl-tRNA synthetase

Cysteinyl-tRNA synthetase catalyzes the addition of cysteine to its cognate tRNA. The available eukaryotic sequences for this enzyme contain several insertions that are absent from bacterial sequences. To gain insights into the differences between the bacterial and eukaryotic forms, we previously studied the E. coli cysteinyl-tRNA synthetase. In this study, we sought to clone and express the full-length gene for the human cytoplasmic cysteinyl-tRNA synthetase. Although a gene encoding the human enzyme has been described, the predicted protein sequence, consisting of 638 amino acids, lacks homology with other eukaryotic enzymes in the carboxyl-terminus. This suggested that a further investigation was necessary to obtain the definitive sequence for the human enzyme. Here we report the isolation of a full-length cDNA that encodes a protein of 748 amino acids. The predicted protein sequence shows considerable similarity to other eukaryotic cysteinyl-tRNA synthetases in the carboxyl-terminus. We also found that approximately 20% of the mRNA encoding the cytoplasmic cysteinyl-tRNA synthetase contained an insertion of 8 bases in the 3' coding region of the mRNA. This insertion arises from an alternative splicing between the last two exons of the gene. The alternative splicing alters the reading frame and results in the replacement of the carboxy-terminal 44 amino acids with a novel sequence of 22 amino acids. Expression of the full-length and alternative forms of the enzyme in E. coli generated functional proteins that were active in aminoacylation of human cytoplasmic tRNA(Cys) with cysteine.     

cDNA cloning, genomic structure and chromosomal localization of the human BUP-1 gene encoding beta-ureidopropionase.

A full-length cDNA clone encoding human beta-ureidopropionase was isolated. A 1152-nucleotide open reading frame which corresponds to a protein of 384 amino acids with a calculated molecular weight of 43? omitted?158 Da, surrounded by a 5'-untranslated region of 61 nucleotides and a 3'-untranslated region of 277 nucleotides was identified. The protein showed 91% similarity with the translation product of the rat beta-ureidopropionase cDNA. Expression of the human cDNA in an Escherichia coli and eukaryotic COS-7 expression system revealed a very high beta-ureidopropionase enzymatic activity, thus confirming the identity of the cDNA. Since human EST libraries from brain, liver, kidney and heart contained partial beta-ureidopropionase cDNAs, the enzyme seems to be expressed in these tissues, in agreement with the expression profile of this enzyme in rat. Using the human cDNA as a probe a genomic P1 clone could be isolated containing the complete human beta-ureidopropionase gene. The gene consist of 11 exons spanning approximately 20 kB of genomic DNA. Fluorescence in situ hydridization localized the human beta-ureidopropionase gene to 22q11.2.     

Molecular cloning, cDNA structure and tissue-specific expression of the human regulatory subunit RI beta of cAMP-dependent protein kinases.

Complementary DNA clones for the regulatory subunit RI beta of cAMP-dependent protein kinases were isolated from a human testis cDNA library using a mouse RI beta cDNA probe. One clone 2.4 kilobases (kb) in length contained an open reading frame of 1137 bases, and encoded a protein of 379 amino acids (excluding the initiator methionine). The human RI beta protein was one amino acid shorter than the corresponding protein in mouse and rat. The nucleotide similarity to mouse and rat sequences was 85.6% and 84.8%, respectively, while the amino acid similarity was 97.6% and 97.3%, respectively. Northern blot analyses revealed a 2.7 kb mRNA in human tissues and a 2.8 kb mRNA in mouse tissues. Both mouse and human RI beta mRNA were found to be expressed in most tissues, and not restricted to brain and testis as reported by others.     

Cloning and nucleotide sequence of a full-length cDNA for human liver gamma-glutamylcysteine synthetase.

We have cloned and sequenced a full-length cDNA for human liver gamma-glutamylcysteine synthetase (GCS), the rate-limiting enzyme in glutathione biosynthesis. The cDNA consists of 2634 bp containing an open reading frame encoding a protein of 367 amino acids and having a calculated M(r) = 72,773. The nucleotide sequence of the cDNA for human liver GCS shares an 84% overall similarity with the composite rat GCS sequence deduced from three overlapping partial cDNAs (Yan and Meister, JBC 265: 1588-1593, 1990). The deduced amino acid sequences are 94% similar. Comparison of Northern blots of total RNA isolated from rat kidney or liver with that from human kidney revealed the GCS mRNA to be larger in the human tissue (approximately 4.0 kb vs. approximately 3.7 kb). (The sequence for the human liver GCS cDNA has been assigned accession number M90656 in GenBank/EMBL databases.     

Characterization of cDNA clones encoding rabbit and human serum paraoxonase: the mature protein retains its signal sequence.

Serum paraoxonase hydrolyzes the toxic metabolites of a variety of organophosphorus insecticides. High serum paraoxonase levels appear to protect against the neurotoxic effects of organophosphorus substrates of this enzyme [Costa et al. (1990) Toxicol. Appl. Pharmacol. 103, 66-76]. The amino acid sequence accounting for 42% of rabbit paraoxonase was determined by (1) gas-phase sequencing of the intact protein and (2) peptide fragments from lysine and arginine digests. From these data, two oligonucleotide probes were synthesized and used to screen a rabbit liver cDNA library. A clone was isolated and sequenced, and contained a 1294-bp insert encoding an open reading frame of 359 amino acids. Northern blot hybridization with RNA isolated from various rabbit tissues indicated that paraoxonase mRNA is synthesized predominately, if not exclusively, in the liver. Southern blot experiments suggested that rabbit paraoxonase is coded by a single gene and is not a family member of closely related genes. Human paraoxonase clones were isolated from a liver cDNA library by using the rabbit cDNA as a hybridization probe. Inserts from three of the longest clones were sequenced, and one full-length clone contained an open reading frame encoding 355 amino acids, four less than the rabbit paraoxonase protein. Each of the human clones appeared to be polyadenylated at a different site, consistent with the absence of the canonical polyadenylation signal sequence. Of potential significance with respect to the paraoxonase polymorphism, the derived amino acid sequence from one of the partial human cDNA clones differed at two positions from the full-length clone. Amino-terminal sequences derived from purified rabbit and human paraoxonase proteins suggested that the signal sequence is retained, with the exception of the initiator methionine residue [Furlong et al. (1991) Biochemistry (preceding paper in this issue)]. Characterization of the rabbit and human paraoxonase cDNA clones confirms that the signal sequences are not processed, except for the N-terminal methionine residue. The rabbit and human cDNA clones demonstrate striking nucleotide and deduced amino acid similarities (greater than 85%), suggesting an important metabolic role and constraints on the evolution of this protein.     

条斑紫菜SAMS基因克隆与生物信息学分析

干旱、高盐和低温是限制植物生长和农作物产量的主要逆境因子。S-腺苷甲硫氨酸合成酶（S-adenosylmethionine synthetase,SAMS）与植物抗逆境密切相关,而且超表达SAMS的转基因植物具有更高的抗干旱、高盐和低温能力。进行条斑紫菜（Porphyra yezoensis）S-腺苷甲硫氨酸合成酶基因（PySAMS）cDNA的克隆及序列特征分析。首先利用电子克隆技术得到基因相关的contig,预测全长并设计引物,最后利用RT-PCR技术成功克隆了PySAMS的cDNA序列（GenBank accession：FJ404748）。该cDNA序列含有长1155nt的完整ORF,编码蛋白（PySAMS）分子量41.8kDa,长384AA。PySAMS与盘基网柄菌（Dictyostelium discoideum）、莱茵衣藻（Chlamydomonas reinhardtii）、拟南芥（Arabidopsis thaliana）和水稻（Oryza sativa）等多种生物的SAMS具有较高的序列一致性,含有与SAMS酶活性密切相关的氨基酸残基和保守序列,与人（Homo sapiens）和大肠杆菌（Escherichia coli）的SAMS具有高度相似的三维结构。所以PySAMS与其它生物的SAMS一样,在条斑紫菜的抗逆过程中发挥重要作用。研究PySAMS有助于阐明条斑紫菜耐受非生物胁迫的作用机理,有助于获得高抗逆转基因植物。     

Nucleotide sequence of a full-length complementary DNA clone and amino acid sequence of human phenylalanine hydroxylase

A full-length human phenylalanine hydroxylase complementary DNA (cDNA) clone was isolated from a human liver cDNA library, and the nucleotide sequence encoding the entire enzyme was determined. The cDNA clone contains an inserted DNA fragment of 2448 base pairs, including 19 base pairs of poly(A) at the 3' end. The first methionine codon occurs at nucleotide position 223, followed by an open reading frame of 1353 base pairs, encoding 451 amino acids. Translation of the nucleotide sequence in the open reading frame predicts the amino acid sequence of human phenylalanine hydroxylase. The human protein shows a 96% amino acid sequence homology with the corresponding rat enzyme. The determination of the complete primary structure for phenylalanine hydroxylase represents the first among mixed-function oxidases.     

Identification of a cDNA encoding 6-phosphogluconate dehydrogenase from a human heart cDNA library

A full-length cDNA clone for human 6-phosphogluconate dehydrogenase (PGD) was isolated from a human adult heart cDNA library. The clone encoded an open reading frame of 483 amino acids. When the amino acid sequences of human PGD and sheep PGD were aligned, 94.2% identity between these two proteins was found. Its calculated molecular weight is 53,149 daltons. The predicted isoelectric point is 6.85. When the secondary structure of human PGD was examined by the PROSIS software, 36% α-helix and 9% β-sheet were found.     

Cloning and expression of human cDNA encoding human homologue of pituitary tumor transforming gene.

Recently, a potent transforming gene which was exclusively expressed in rat pituitary tumor but not in normal pituitary had been isolated and named as pituitary tumor transforming gene (PTTG). A cDNA clone encoding human homologue of rat PTTG was isolated from human fetal liver cDNA library. It contained an open reading frame of 603 base pairs predicting a protein composed of 201 amino acids with a calculated molecular weight of 26 kDa. The deduced protein showed about 85% homology (78% identity, 7% favored substitution) with the rat PTTG. Northern blot analysis showed that the cDNA hybridized to 1.0 kb mRNA species which was expressed in fetal liver and several cancer cell lines. These results suggest that the presence of the human homologue of rat PTTG gene may not be restricted to pituitary tumor.     

Complete primary structure of the transacylase (E2b) subunit of the human branched chain alpha-keto acid dehydrogenase complex

We isolated from a placental cDNA library by immunoscreening a cDNA clone encoding the transacylase (E2b) precursor of the human branched chain alpha-keto acid dehydrogenase (BCKDH) complex. The cDNA insert consists of 2,649 base pairs with an open reading frame of 1,431 base pairs which can be translated into 477 amino acids and a 3'-untranslated region of 1,205 base pairs. The deduced amino acid sequence includes a leader peptide of 56 amino acid residues, a lipoyl-bearing domain, a E3-binding domain and an inner core domain. A mature human E2b subunit is likely to contain 421 amino acid residues with a calculated Mr 46,322. The nucleotide sequence of the open reading frame and the deduced amino acid sequence of the human E2b shows 91.6% and 92.0% homology with those of the bovine E2b subunit, respectively.     

人胎儿脑的一个cDNA编码序列及其蛋白质预测

用 m RNA差异显示 PCR技术 ,从人 1 8周、2 2周胎儿脑和肝肾组织的 m RNA逆转录产物得到一些特异性显示的片段 .其中一个随机片段 GC1 0 2作为探针 ,从本实验室构建的 1 8周胎儿脑c DNA基因文库进行杂交筛选 ,得到一个阳性克隆λ gt1 0 /GC1 0 2 .该克隆内插入的 c DNA片段长2 .9kb,经过 DNA测序 ,显示具有一个开放阅读框架 ,编码 1 37个氨基酸的肽链 .用蛋白质结构的建模软件预测了该肽链的立体结构初步模型 .     

Molecular cloning of LMO41, a new human LIM domain gene

We have identified a new human LIM domain gene by isolating an autoantigenic cDNA clone from a human breast tumor cDNA library. The predicted amino acid sequence of the cDNA clone's 495 bp open reading frame contains two tandem LIM domain motifs, and within the LIM domain region there is 62% identity with the analogous region of the LIM-only gene LMO1. The homology to LMO1 is restricted to the 360 bp region encoding the tandemly repeated LIM domains, the rest of the open reading frame as well as the extensive, GC-rich 5' untranslated region, and 3' region of the 2 kb cDNA sequence are unrelated to any known genes. This gene has been designated LMO4.     

Cloning and characterization of the C. elegans histidyl-tRNA synthetase gene.

In this paper, we report the cloning and sequencing of the C. elegans histidyl-tRNA synthetase gene. The complete genomic sequence, and most of the cDNA sequence, of this gene is now determined. The gene size including flanking and coding regions is 2230 nucleotides long. Three small introns (45-50 bp long) are found to interrupt the open reading frame. The open reading frame translates to 523 amino acids. This putative protein sequence shows extensive homology with the human and yeast histidyl-tRNA the histidyl-tRNA synthetase gene is a single copy gene. Hence, it is very likely that it encodes both the cytoplasmic and the mitochondrial histidyl-tRNA synthetases. It is likely to be trans-spliced since it contains a trans-splice site in its 5' untranslated region.     

Molecular cloning and expression of a mouse muscle cDNA encoding adenylosuccinate synthetase

Adenylosuccinate synthetase (EC 6.3.4.4) catalyzes the first step in formation of AMP from IMP. At least two isozymes exist in vertebrate tissue. An acidic form, present in most tissues, has been suggested to be involved in de novo biosynthesis while a basic isozyme, which predominates in muscle, appears to function in the purine nucleotide cycle. Antibodies specific for the basic isozyme detect a single protein in mouse tissues with highest levels in skeletal muscle, tongue, esophagus, and heart tissue consistent with a role for the enzyme in muscle metabolism. A series of degenerate oligonucleotides were constructed based on peptide sequences from purified rat muscle enzyme and then used to clone a mouse muscle cDNA encoding the basic isozyme. The clone contains a open reading frame of 1356 bases with 452 amino acids. Northern analysis of RNA from mouse tissues showed a tissue distribution similar to that of the protein, indicating a high level of gene expression in muscle. Transfection of COS cells with the mouse muscle cDNA allows expression of a functional protein with a molecular mass of approximately 50 kDa, consistent with the open reading frame and the size of the isolated rat enzyme. The deduced amino acid sequence of the mouse synthetase is 47 and 37% identical to the synthetase sequences from Dictyostelium discoideum and Escherichia coli, respectively. The availability of antibodies and cDNA clones specific for the basic isozyme of adenylosuccinate synthetase from muscle will facilitate future genetic and biochemical analysis of this protein and its role in muscle physiology.     

Sequence of carbonic anhydrase II cDNA from chick retina

Sequences of three cDNA clones for carbonic anhydrase II (CA-II) from chick retina are presented. The longest cDNA clone encodes all but the first three amino acids of CA-II, and the encoded sequence generally agrees with published fragments of CA-II sequence from chick red blood cells. It is 70% identical to human CA-II; the active-site residues are conserved, but the chick protein has six extra cysteines. There is a long 3'-untranslated region which contains a second open reading frame, but this is not conserved. There appears to be a single CA-II gene in the chick. Some anomalies in cDNA synthesis and in Bal31 deletion are noted.     

Molecular cloning, complementary deoxyribonucleic acid structure and predicted full-length amino acid sequence of the hormone-inducible regulatory subunit of 3'-5'-cyclic adenosine monophosphate-dependent protein kinase from human testis

In this study, we report the isolation and characterization of a full-length cDNA clone for the hormone-inducible regulatory subunit RII beta (formerly called RII51) of type II cAMP-dependent protein kinase from a human testis cDNA library. The cloned cDNA demonstrated tissue-specific expression of RII beta mRNA in human tissues, with the highest mRNA levels in testis and ovary. The isolated human cDNA clone was 3.3 kilobases (kb) in length and contained 166 base pairs (bp) of G/C-rich 5'-noncoding sequence, an open reading frame of 1254 bp and an A/T-rich 3'-nontranslated region containing 1836 bp followed by an 89 nucleotide long poly(A)-tail. The predicted protein contains 418 amino acids including the start methionine, and the estimated mol wt of human RII beta is 53,856. The nucleotide sequence within the open reading frame and the predicted amino acid sequence of human RII beta are highly conserved compared with partial rat RII beta sequences, displaying 91% and 97% similarity, respectively. Codon preference analysis of the cloned cDNA sequence indicated that the two cAMP-binding domains and the hinge region are highly conserved through evolution, whereas the dimerization domain displayed a codon preference pattern indicative of appearance at a later stage of evolution. The isolated human cDNA detected an FSH- and cAMP-inducible mRNA of 3.2 kb in rat Sertoli cells, thus confirming that the cloned cDNA represents the hormone-inducible regulatory subunit of cAMP-dependent protein kinase. This is the first report documenting the isolation of a full-length cDNA clone for the RII beta of cAMP-dependent protein kinase.