Two Bacillus beta-mannanases having different COOH termini are produced in Escherichia coli carrying pMAH5

The nucleotide sequence was determined for the alkalophilic Bacillus sp. strain AM-001 beta-mannanase gene which produced two beta-mannanases (A and B) in Escherichia coli transformants. The putative beta-mannanase gene was 1,539 base pairs long and encoded a mature beta-mannanase protein of 487 amino acids and a signal peptide of 26 amino acids. The COOH-terminal amino acid of beta-mannanase A is an arginine residue located at amino acid 513 of the deduced amino acid sequence, and that of beta-mannanase B is a valine residue located at amino acid 365. Deletion derivatives having 1,098 base pairs from the ATG start codon maintained the beta-mannanase activity of the encoded polypeptide. However, clones harboring DNA fragments (1,051 base pairs) shorter than the gene which encoded beta-mannanase B (1,095 base pairs) did not exhibit the beta-mannanase activity. The simultaneous production of both beta-mannanases A and B in an E. coli transformant was demonstrated by the maxicell procedure.     

Two Bacillus beta-mannanases having different COOH termini are produced in Escherichia coli carrying pMAH5.

The nucleotide sequence was determined for the alkalophilic Bacillus sp. strain AM-001 beta-mannanase gene which produced two beta-mannanases (A and B) in Escherichia coli transformants. The putative beta-mannanase gene was 1,539 base pairs long and encoded a mature beta-mannanase protein of 487 amino acids and a signal peptide of 26 amino acids. The COOH-terminal amino acid of beta-mannanase A is an arginine residue located at amino acid 513 of the deduced amino acid sequence, and that of beta-mannanase B is a valine residue located at amino acid 365. Deletion derivatives having 1,098 base pairs from the ATG start codon maintained the beta-mannanase activity of the encoded polypeptide. However, clones harboring DNA fragments (1,051 base pairs) shorter than the gene which encoded beta-mannanase B (1,095 base pairs) did not exhibit the beta-mannanase activity. The simultaneous production of both beta-mannanases A and B in an E. coli transformant was demonstrated by the maxicell procedure.     

Nucleotide sequence of the 2,3-dihydroxybiphenyl dioxygenase gene of Pseudomonas pseudoalcaligenes.

2,3-Dihydroxybiphenyl dioxygenase, which catalyzes ring metacleavage of 2,3-dihydroxybiphenyl, is encoded by the bphC gene of Pseudomonas pseudoalcaligenes KF707 (K. Furukawa and T. Miyazaki, J. Bacteriol. 166:392-398, 1986). We determined the nucleotide sequence of a DNA fragment of 2,040 base pairs which included the bphC gene. The fragment included one open reading frame of 912 base pairs to accommodate the enzyme. The predicted processed amino acid sequence of the enzyme subunit consisted of 302 residues, and its 12 NH2-terminal residues were in perfect agreement with those determined for the enzyme. Approximately 10 base pairs upstream from the initiation codon for 2,3-dihydroxybiphenyl dioxygenase, there was a base sequence complementary to the 3' end of the 16S rRNA from Pseudomonas aeruginosa. There was no promoterlike sequence in the region upstream of the bphC gene, but another long open reading frame was present. A putative bphD gene encoding a metacleavage compound-hydrolyzing enzyme was suggested in the region downstream of the bphC gene.     

Biosynthesis of bacterial glycogen. Primary structure of Escherichia coli ADP-glucose synthetase as deduced from the nucleotide sequence of the glg C gene

The nucleotide sequence of the glg C gene of Escherichia coli K12, coding for ADP-glucose synthetase, has been determined. The structural gene consists of 1293 base pairs, which specify a protein of 431 amino acids. The amino acid sequence deduced from the DNA sequence is consistent with the known NH2-terminal amino acid sequence and the amino acid composition of ADP-glucose synthetase. The translation start of the structural gene of glycogen synthase, glg A, starts immediately after termination of the glg C gene.     

Synthesis, secretion and processing of alpha-factor-interferon fusion proteins in yeast.

A gene fusion consisting of 960 base pairs of 5'-flanking region of the yeast MF alpha 1 gene, 257 base pairs coding for alpha-factor prepro sequence, and a modified human IFN-alpha 1 gene was constructed. MAT alpha cells containing the chimeric gene synthesized and secreted active IFN-alpha 1 into the growth medium. The secreted interferon molecules contained the last 4 amino acids of alpha-factor prepro sequence and the amino acids encoded by the DNA modifications introduced at the beginning of IFN-alpha 1 gene. DNA sequences coding for these amino acids were removed by oligonucleotide-directed in vitro mutagenesis. Yeast cells transformed with expression plasmids containing the altered junction synthesized and secreted human IFN-alpha 1 with the natural NH2-terminus.     

鲤鱼（Cyprinus carpio）生长激素基因的亚克隆及其序列分析

本文对ＰＣＲ扩增的６６８ｂｐ的ＤＮＡ片段进行了亚克隆,然后以Ｓａｎｇｅｒ双脱氧中止法为原理,利用美国ＡＢＩ公司３７０Ａ自动核酸序列分析仪,确定了６６８ｂｐ的核苷酸序列。序列分析表明鲤鱼生长激素基因的开放读框含有６３０ｂｐ,并推测其中包括２２个氨基酸的信号肽和１８８个氨基酸的成熟多肽。鲤鱼生长激素基因的酶切图谱和序列分析的结果都证明我们已获得了全长的鲤鱼生长激素基因。     

The small subunit of ribulose-1,5-bisphosphate carboxylase is plastid-encoded in the chlorophyll c-containing alga Cryptomonas Φ

The gene for the small subunit of ribulose-1,5-bisphosphate carboxylase (Rubisco) is located in the large single-copy region of the plastid genome of the chlorophyll c-containing alga Cryptomonas . The coding sequence is 417 base pairs long, encoding a protein of 139 amino acids, considerably longer than most other small subunit proteins. It is found 83 base pairs downstream from the gene for the large subunit and is cotranscribed with it. An 18 base pair perfect inverted repeat is located 8 base pairs beyond the termination codon. Sequence analysis shows the gene to be more closely related to cyanobacterial and cyanelle small-subunit genes than to those of green algae or land plants. This is the first reported sequence of a Rubisco small-subunit gene which is plastid-encoded and it exhibits a number of unique features. The derived amino acid sequence shows extensive similarity to a partial amino acid sequence from a brown alga, indicating that this gene will be of major interest as a probe for the small subunit genes in other algae and for determining possible evolutionary ancestors of algal plastids.     

Cloning and nucleotide sequence of phoP, the regulatory gene for alkaline phosphatase and phosphodiesterase in Bacillus subtilis.

Two DNA fragments which complement the alkaline phosphatase-negative mutation phoP of Bacillus subtilis were cloned from a B. subtilis chromosome with the prophage vector phi CM (a derivative of phi 105). One of the fragments contained the regulatory gene phoR in addition to phoP. Nucleotide sequence analysis of the phoP region revealed that the phoP gene product consists of 241-amino-acid residues and that the sequence of these amino acids is extensively homologous with the sequence of the phoB gene product. This protein is the positive regulator for the phosphate regulon in Escherichia coli. It therefore appears that phoP is a regulatory gene for alkaline phosphatase synthesis in B. subtilis.     

Genomic DNA sequence for human C-reactive protein

The gene for the prototype acute phase reactant, C-reactive protein, has been isolated from two lambda phage libraries containing inserted human DNA fragments using synthetic oligonucleotide probes. Nucleotide sequence analysis indicates that after coding for a signal peptide of 18 amino acids and the first two amino acids of the mature protein, there is an intron of 278 base pairs followed by the nucleotide sequence for the remaining 204 amino acids. The intron is unusual in that it contains on the positive strand a poly(A) stretch 16 nucleotides long and a poly(GT) region 30 nucleotides long which could adopt the Z-form of DNA. The nucleotide sequence reported here confirms the amino acid sequence of mature C-reactive protein as originally reported except that it codes for an additional 19 amino acids beginning at position 62. Thus DNA sequence analysis predicts that the mature protein consists of 206 amino acids rather than 187 as originally reported. The mRNA cap site is located 104 nucleotides from the start of the signal peptide and there is a 3' noncoding region 1.2 kilobase pairs in length. The gene has a typical promoter containing the sequences TATAAAT and CAAT 29 and 81 base pairs upstream, respectively, of the cap site.     

Nucleotide sequence of the genes III, VI and I of bacteriophage M13.

A DNA region of 2750 base pairs encompassing the genes III, VI and I of bacteriophage M13 has been sequenced by the Maxam-Gilbert procedure. By establishing the nucleotide changes introduced by several amber mutations, the coding region and the regulatory signals of each gene have been deduced. The genes appear to span 1275 base pairs (gene III; mol.wt. 44,748) 339 base pairs (gene VI; mol.wt. 12,264) and 1047 base pairs (gene I; mol.wt. 39,500). Their separating non-codogenic regions are extremely short, namely two and one base pair, respectively. The C-terminal end of gene I, however, intrudes 23 nucleotides into gene IV. From the nucleotide sequence it appears that the minor capsid protein of the phage, which is encoded by gene III, is synthesized in a precursor form containing 18 extra amino acids at its N-terminal end. Furthermore, in this capsid protein two clusters of a fourfold repeat of the sequence Glu-Gly-Gly-Gly-Ser are apparent. Gene VI appears to code for a small, extremely hydrophobic polypeptide. Its total hydrophobic amino acids content of 51% suggests that this protein can only function in the host cell membrane.     

Characterization of the 25-kilodalton subunit of the energy-transducing NADH-ubiquinone oxidoreductase of Paracoccus denitrificans: sequence similarity to the 24-kilodalton subunit of the flavoprotein fraction of mammalian complex I

The NADH dehydrogenase complex isolated from Paracoccus denitrificans is composed of approximately 10 unlike polypeptides [Yagi, T. (1986) Arch. Biochem. Biophys. 250, 302-311]. Structural genes encoding the subunits of this enzyme complex constitute at least one gene cluster [Xu, X., Matsuno-Yagi, A., & Yagi, T. (1991) Biochemistry 30, 6422-6428]. The 25-kDa subunit (NQO2), which has been isolated from sodium dodecyl sulfate-polyacrylamide gels, is a polypeptide of this enzyme complex. The partial N-terminal amino acid sequence and amino acid composition of the NQO2 subunit have been determined. On the basis of the amino acid sequence, the NQO2 gene was found to be located 1.7 kilobase pairs upstream of the gene for NADH-binding subunit (NQO1). The complete nucleotide sequence of the NQO2 gene was determined. It is composed of 717 base pairs and codes for 239 amino acid residues with a calculated molecular weight of 26,122. The NQO2 subunit is homologous to the Mr 24,000 subunit of the mammalian mitochondrial NADH-ubiquinone oxidoreductase which bears an electron paramagnetic resonance-visible binuclear iron-sulfur cluster (probably cluster N1b). Comparison of the predicted amino acid sequence of the Paracoccus NQO2 subunit with those of its mammalian counterparts suggests putative binding sites for the iron-sulfur cluster. In addition, nucleotide sequencing shows the presence of two unidentified reading frames between the NQO1 and NQO2 genes. These are designated URF1 and URF2 and are composed of 261 and 642 base pairs, respectively. The possible function of the protein coded for the URF2 is discussed.     

Nucleotide sequence of the genes coding for alpha, beta and gamma subunits of the proton-translocating ATPase of Escherichia coli

A nucleotide sequence of 2328 base pairs comprising a portion of the gene cluster for the proton-translocating ATPase of $\text{E. coli}$ was determined. The sequence covers most of the gene for α subunit, the entire gene for γ subunit and the amino terminal portion of the gene for β subunit, along with the flanking regions of these genes. The amino acid sequences of these subunits deduced from the DNA sequences indicate that the α and γ subunits have 513 and 287 amino acid residues, respectively. A possible secondary structure for each subunit was estimated from the inferred primary structure. The intercistronic regions between the genes for α and γ and between γ and β are 49 and 26 base pairs, respectively. The significance of codon usage in these genes is discussed in correlation with their expression.     

Biosynthetic alr alanine racemase from Salmonella typhimurium: DNA and protein sequence determination

The nucleotide sequence of the alr gene encoding the biosynthetic alanine racemase in Salmonella typhimurium is reported. The sequence was determined by the dideoxy chain termination method of Sanger mostly from recombinants derived from shotgun and specific subcloning of a 2.6-kilobase region containing the alr gene. The final bridging of nonoverlapping contiguous sequences was accomplished with the use of synthetic site-specific primers. The alr gene was found to be 1077 base pairs in length encoding a protein of 359 amino acid residues. Comparison of alr with the dadB gene encoding the catabolic alanine racemase in S. typhimurium revealed almost identical size (1077 vs. 1068 base pairs) and 52% sequence identity. The respective gene products displayed 43% homology, which includes a decapeptide bearing the pyridoxal 5'-phosphate binding site.     

Cloning and sequencing of the maltohexaose-producing amylase gene of Klebsiella pneumoniae

The molecular characterization of the maltohexaose-producing amylase gene of Klebsiella pneumoniae revealed an open reading frame in which 2,031 base pairs encode a protein of 677 amino acids with a calculated molecular weight of 75,921. The amylase gene had high similarities of 73.6% in DNA sequence and 79.3% in deduced amino acid sequence with the periplasmic alpha-amylase MalS gene of Escherichia coli.     

Sequence of the cDNA and gene for angiogenin, a human angiogenesis factor

Human cDNAs coding for angiogenin, a human tumor derived angiogenesis factor, were isolated from a cDNA library prepared from human liver poly(A) mRNA employing a synthetic oligonucleotide as a hybridization probe. The largest cDNA insert (697 base pairs) contained a short 5'-noncoding sequence followed by a sequence coding for a signal peptide of 24 (or 22) amino acids, 369 nucleotides coding for the mature protein of 123 amino acids, a stop codon, a 3'-noncoding sequence of 175 nucleotides, and a poly(A) tail. The gene coding for human angiogenin was then isolated from a genomic lambda Charon 4A bacteriophage library employing the cDNA as a probe. The nucleotide sequence of the gene and the adjacent 5'- and 3'-flanking regions (4688 base pairs) was then determined. The coding and 3'-noncoding regions of the gene for human angiogenin were found to be free of introns, and the DNA sequence for the gene agreed well with that of the cDNA. The gene contained a potential TATA box in the 5' end in addition to two Alu repetitive sequences immediately flanking the 5' and 3' ends of the gene. The third Alu sequence was also found about 500 nucleotides downstream from the Alu sequence at the 3' end of the gene. The amino acid sequence of human angiogenin as predicted from the gene sequence was in complete agreement with that determined by amino acid sequence analysis. It is about 35% homologous with human pancreatic ribonuclease, and the amino acid residues that are essential for the activity of ribonuclease are also conserved in angiogenin. This provocative finding is thought to have important physiological implications.