Cloning and sequencing of cDNA encoding the complete mouse liver alcohol dehydrogenase.

The main ethanol-active alcohol dehydrogenase (ADH; alcohol:NAD+ oxidoreductase, EC 1.1.1.1) in mouse liver (ADH-AA) is similar in catalytic and molecular properties to horse liver ADH-EE and to the human class I ADHs. We have isolated cDNA clones encoding the entire mouse liver enzyme plus flanking regions. A mixture of 16 different oligonucleotides, each 14 bases long, was used to screen a liver cDNA library made from a DBA/2J mouse. A strongly hybridizing clone was found and identified as an ADH-encoding cDNA by partial DNA sequencing. This clone was used as a probe to identify others. Two overlapping cDNA clones together contained the entire protein-encoding region plus 100 nucleotides of the 5' noncoding region and 133 nucleotides of the 3' noncoding region culminating in a short poly(dA) tail. The amino acid sequence of the mouse liver enzyme deduced from this cDNA closely resembles that of horse liver ADH-E: 316 of 374 residues are identical, and 29 of the differences are conservative substitutions. The 5' region of this cDNA is interesting: the AUG that initiates the ADH polypeptide is preceded by an AUG that would encode the first amino acid of a tripeptide. Presumably termination of this tripeptide is followed by reinitiation at the AUG immediately preceding the sequence of the mature ADH polypeptide.     

Extensive intragenic sequence homology in two distinct rat lens gamma-crystallin cDNAs suggests duplications of a primordial gene.

The nucleotide sequences of two different rat lens gamma-crystallin cDNA clones, pRL gamma 2 and pRL gamma 3, have been determined. pRL gamma 3 contains the complete coding information for a gamma-crystallin of 173 amino acids whereas pRL gamma 2 is incomplete in that it lacks the codons for the first three amino acids of a separate but very homologous gamma-crystallin of identical length. Both rat gamma-crystallins are homologous to the known amino acid sequence of bovine gamma-crystallin II which is only a single amino acid longer. The length of the region downstream the coding sequence to the A-A-T-A-A-A polyadenylylation signal sequence is 40 nucleotides in each clone. In pRL gamma 3 the poly(A) signal sequence is followed at 14 nucleotides by a remnant of the poly(A) tail which indicates that this clone contains a complete 3' noncoding region. pRL gamma 2 has only seven nucleotides following this signal sequence and no poly(A) tail, suggesting an incomplete 3' end. The cDNA clones show an overall nucleotide sequence homology of 85%. The mutual homology at the amino acid level is 73% whereas their amino acid homology with bovine gamma-crystallin II is about 70%. The nucleotide sequence of each clone also reveals a high intragenic homology and seems to be duplicated in itself. We suggest that the gamma-crystallin genes have arisen by multiple duplications of a primordial gene which consisted of about 120 nucleotides.     

Isolation and characterization of cDNA clones for human and bovine fibronectins.

A bovine fibronectin (FN) cDNA clone (pFB1) was isolated by screening a cDNA library of calf testis fibroblasts with a synthetic oligonucleotide probe. The probe was a mixture of eight 14-base-long oligonucleotides designed from the amino acid sequence Glu-Cys-Phe-Met-Pro present in the Mr 3,000 COOH-terminal fragment of bovine plasma FN [Petersen, T.E., Thøgersen, H.C., Skorstengaard, K., Vibe-Pedersen, K., Sahl, P., Sottrup-Jensen, L. & Magnusson. S. (1983) Proc. Natl. Acad. Sci. USA 80. 137-141]. pFB1 contained a 1,000 base-pair (bp) insert comprising the complete 3' noncoding sequence (690 bp) and approximately equal to 300 bp of the coding region. The clone pFB1 was used as a radioactive probe in the screening of a human cell line (Hs 578T) cDNA library. Eleven positive cDNA clones were detected, one of which, named pFH1, contained a 2,000-bp insert comprising the complete 3' noncoding region (693 bp) and approximately equal to 1,300 bp of the coding region of human FN. The sequences of the clone pFB1 insert and of the homologous region in clone pFH1 were determined. The nucleotide sequences are 90% homologous. Six amino acid changes were found, clustered in an area connecting two structural domains described in bovine plasma FN. Furthermore, the 204 COOH-terminal amino acid sequence of bovine FN was completed by overlapping two peptide fragments (MrS 3,000 and 23,000). Clone pFH1 was used in estimating the size of human fibronectin mRNA (7,900 bases) through blot hybridization analysis. Southern blot studies suggest that human FN is coded by a unique gene.     

Molecular cloning of cDNAs for precursors of porcine pituitary glycoprotein hormone common alpha-subunit and of thyroid stimulating hormone beta-subunit

cDNA clones encoding precursors of glycoprotein hormone common alpha-subunit (pre-alpha) and of thyroid stimulating hormone beta-subunit (pre-TSH beta) were isolated from a porcine anterior pituitary cDNA library using DNA probes, and the nucleotide sequences were determined. The nucleotide sequence of pre-alpha cDNA contained an entire coding region (360 bases) including 5' and 3' untranslated regions. The pre-alpha mRNA was about 900 bases long. The predicted amino acid sequence consisted of a signal peptide of 24 amino acid residues and a mature alpha-subunit protein of 96 residues. Six amino acid residues at the amino terminus of the predicted mature protein had not been found by direct amino acid sequencing of the purified protein. The nucleotide sequence of pre-TSH beta cDNA contained an entire coding region and a 3' untranslated region which has two polyadenylation signals. The length of the pre-TSH beta mRNA was about 500 bases long. The predicted amino acid sequence consisted of a signal peptide of 20 amino acid residues, a mature protein of 112 residues and an additional extension of six amino acid residues at the carboxyl terminus, which had not been found in the amino acid sequence of the purified protein. The coding sequences of the cDNAs showed high homologies with those of other mammalian species (84-93% for pre-alpha and 81-94% for pre-TSH beta). Comprehensive data of our serial molecular cloning for porcine glycoprotein hormones revealed low but significant homologies (34-40%) among three beta-subunits. Upon comparison of frequency of (U)n A sequence in 3' untranslated region, porcine pre-alpha and pre-TSH beta mRNAs were grouped into a moderate class of mRNA stability whereas porcine pre-FSH beta and pre-LH beta were grouped into unstable and stable classes, respectively.     

Nucleotide sequence of cloned cDNAs encoding human preproparathyroid hormone.

We have cloned cDNA copies of human preproparathyroid hormone in Escherichia coli after insertion of double-stranded DNA into the Pst I site of plasmid pBR322 using the poly(dG) . poly(dC) homopolymer extension technique. Recombinant plasmids coding for preproparathyroid hormone were identified by filter hybridization assay using as a probe 32P-labeled bovine preproparathyroid cDNA. Nucleotide sequence analysis of five recombinant plasmids permitted the assignment of 74 nucleotides of the 5' noncoding region, the entire coding region of 345 nucleotides, and the entire 3' noncoding region of 348 nucleotides of the mRNA. The coding sequence predicts the previously unknown "pre" amino acid sequence and clarifies the hormone's amino acid sequence, which has been disrupted. The 5' noncoding region contains an AUG codon followed by a UGA stop codon before the authentic initiator codon. The 3' noncoding region is 120 nucleotides longer than in bovine preproparathyroid mRNA and contains two A-A-U-A-A-A sequences, potential signals for polyadenylation.     

Molecular cloning, sequence analysis, and expression in Escherichia coli of the cDNA for guanidinoacetate methyltransferase from rat liver.

Five cDNA clones encoding rat liver guanidinoacetate methyltransferase (S-adenosyl-L-methionine: guanidinoacetate N-methyltransferase, EC 2.1.1.2) were isolated from a lambda gt11 cDNA library by use of a polyclonal antibody to the purified enzyme. Sequence analysis of the longest cDNA indicated that it consisted of 711 base pairs (bp) of coding region, 51 bp of 5' noncoding region, and 162 bp of 3' noncoding region excluding the poly(A) tail. The amino acid sequence deduced from the cDNA contained the sequences of NH2-terminal and three tryptic peptides. The predicted amino acid composition and molecular weight were in excellent agreement with those obtained with the purified enzyme. Introduction of the cDNA into plasmid pUC118 having the lac promoter resulted in a production in Escherichia coli of a Mr 26,000 polypeptide in the presence of isopropyl beta-D-thiogalactopyranoside. This protein represented as much as 5% of the bacterial soluble protein and showed the guanidinoacetate methyltransferase activity. Sequence analysis and tryptic peptide mapping indicated that the enzyme obtained by the recombinant DNA procedures was structurally identical to the liver enzyme, except for the absence of the NH2-terminal blocking group. Also, the enzyme showed kinetic properties indistinguishable from those of the liver enzyme.     

Molecular cloning and sequencing of cDNAs encoding the entire rat fatty acid synthase.

Overlapping cloned cDNAs representing the entire sequence of the rat fatty acid synthase mRNA have been isolated from a cDNA library and sequenced. Authenticity of the cDNA clones was supported by hybridization to fatty acid synthase mRNA and by amino-terminal sequencing of 39 fatty acid synthase CNBr fragments. The full-length fatty acid synthase mRNA is 9156 nucleotides long and includes an 84-nucleotide 5' noncoding region, a 7515-nucleotide coding sequence, and a 1537-nucleotide 3' noncoding region; a second mRNA species containing a shortened 3' noncoding sequence is also transcribed in the rat. The encoded fatty acid synthase subunit contains 2505 amino acids and has a molecular weight of 272,340. Active sites and substrate binding sites were located within the sequence, thus establishing the order of domains on the multifunctional animal fatty acid synthase as condensing enzyme-transferase-dehydrase-enoyl reductase-ketoreductase-acyl carrier protein-thioesterase.     

cDNA-derived amino acid sequence of the gamma subunit of GTPase from bovine rod outer segments.

The sequence of the 74 amino acids in the gamma subunit of GTPase from bovine rod outer segments has been deduced from the cDNA sequence. Enriched GTPase mRNA was used to prepare a cDNA library in the expression vector lambda gt11. Clones encoding the gamma subunit were identified by screening the library with anti-GTPase antibodies and by cell-free translation of hybrid-selected mRNA. The longest cDNA (448 base pairs) contained the amino acid coding region for the entire gamma subunit as well as 5' and 3' noncoding regions of 67 and 159 base pairs, respectively. The 3' noncoding region contained the sequence, A-A-U-A-A-A, the presumed recognition sequence for polyadenylylation, and a 14-unit long poly(A) tract. The amino acid sequence derived for the gamma-subunit is mostly in agreement with that previously determined by McConnell and co-workers [McConnell, D. G., Kohnken, R. E. & Smith, A. J. (1984) Fed. Proc. Fed. Am. Soc. Exp. Biol. 43, 1585] and the partial sequence deduced by Van Dop and co-workers from cDNA [Van Dop, C., Medynski, D., Sullivan, K., Wu, A. M., Fung, B. K.-K. & Bourne, H. R. (1984) Biochem. Biophys. Res. Commun. 124, 250-255].     

Cloning and cDNA sequence of the dihydrolipoamide dehydrogenase component human alpha-ketoacid dehydrogenase complexes.

cDNA clones comprising the entire coding region for human dihydrolipoamide dehydrogenase (dihydrolipoamide:NAD+ oxidoreductase, EC 1.8.1.4) have been isolated from a human liver cDNA library. The cDNA sequence of the largest clone consisted of 2082 base pairs and contained a 1527-base open reading frame that encodes a precursor dihydrolipoamide dehydrogenase of 509 amino acid residues. The first 35-amino acid residues of the open reading frame probably correspond to a typical mitochondrial import leader sequence. The predicted amino acid sequence of the mature protein, starting at the residue number 36 of the open reading frame, is almost identical (greater than 98% homology) with the known partial amino acid sequence of the pig heart dihydrolipoamide dehydrogenase. The cDNA clone also contains a 3' untranslated region of 505 bases with an unusual polyadenylylation signal (TATAAA) and a short poly(A) track. By blot-hybridization analysis with the cDNA as probe, two mRNAs, 2.2 and 2.4 kilobases in size, have been detected in human tissues and fibroblasts, whereas only one mRNA (2.4 kilobases) was detected in rat tissues.     

Molecular cloning and the nucleotide sequence of cDNA for neuron-specific enolase messenger RNA of rat brain.

The cDNAs to mRNA for rat gamma gamma enolase (neuron-specific enolase; NSE; EC 4.2.1.11) were isolated from a cDNA library by using differential colony hybridization and a hybrid-selected translation assay. By overlapping of the nucleotide sequences of several cDNA inserts, it was found that they spanned 2232 base pairs (bp) which included 1299 bp of the complete coding region, 68 bp of the 5' noncoding region, and 848 bp of the 3' noncoding region, including a polyadenylylation signal. In addition, the poly(A) tail was also found. The amino acid sequence deduced from the nucleotide sequence was composed of 433 amino acids. Southern blot analysis with a cDNA insert detected one hybridizing fragment in rat genomic DNA digested with several different restriction enzymes. Dot-blot and transfer hybridization analyses of poly(A)+ RNA from developing rat brains showed an increase of NSE mRNA 10-30 days after birth.     

Molecular cloning and sequence determination of rat preproenkephalin cDNA: sensitive probe for studying transcriptional changes in rat tissues.

A cDNA probe was prepared to investigate the regulation of proenkephalin biosynthesis in the rat. This was necessary because human and bovine proenkephalin cDNA were not sensitive enough for the accurate detection of preproenkephalin mRNA in tissues that contain low copy numbers of this message, such as the adrenal gland. The rat probe was prepared in the following manner. Preproenkephalin mRNA was enriched by sucrose gradient centrifugation of poly(A)-containing mRNA from rat brain and was used as a template for double-stranded cDNA synthesis. The resulting cDNA was inserted into the plasmid pBR322, and recombinant plasmids were used to transform Escherichia coli RR1 cells. A synthetic oligodeoxyribonucleotide (30 bases long) with a sequence that had previously been shown to be identical in bovine and human preproenkephalin cDNA was prepared to screen the clone bank. The plasmid with the longest cDNA insert (about 1200 bases) from the positive clones was isolated, and the sequence of the entire protein coding region was determined. Like the bovine and human gene products, rat preproenkephalin contains four [Met]enkephalin sequences and one copy each of [Leu]enkephalin, [Met]enkephalin-Arg6-Gly7-Leu8, and [Met]enkephalin-Arg6-Phe7. Rat preproenkephalin is 80% and 83% homologous to the bovine and human forms, respectively, at the nucleotide level and is 82% homologous to both species at the amino acid level. Rat preproenkephalin contains 269 amino acid residues, making it larger than the human (267 residues) and bovine (263 residues) precursors. The sensitivity for detection of rat preproenkephalin mRNA with the rat cDNA was several times greater than with the corresponding cDNAs from bovine and human sources.     

Cloning and characterization of human liver cDNA encoding a protein S precursor.

Human liver cDNA encoding a protein S precursor was isolated from two cDNA libraries by two different techniques. Based upon the frequency of positive clones, the abundance of mRNA for protein S is approximately 0.01%. Blot hybridization of electrophoretically fractionated poly(A)+ RNA revealed a major mRNA approximately 4 kilobases long and two minor forms of approximately 3.1 and approximately equal to 2.6 kilobases. One of the cDNA clones contains a segment encoding a 676 amino acid protein S precursor, as well as 108 and 1132 nucleotides of 5' and 3' noncoding sequence, respectively, plus a poly(A) region at the 3' end. The cDNAs are adenosine plus thymidine-rich (60%) except for the 5' noncoding region, where 78% of the nucleotides are guanosine or cytosine. The protein precursor consists of a 41 amino acid "leader" peptide followed by 635 amino acids corresponding to mature protein S. Comparison of the mature protein region with homologous vitamin K-dependent plasma proteins shows that it is composed of the following domains: an amino-terminal gamma-carboxyglutamic acid-rich region of 37 amino acids; a 36 amino acid linker region rich in hydroxy amino acids; four epidermal growth factor-like segments, each approximately 45 amino acids long; and a 387 amino acid carboxyl-terminal domain of unrecognized structure and unknown function.     

The alpha and beta chains of human platelet glycoprotein Ib are both transmembrane proteins containing a leucine-rich amino acid sequence.

The primary structure of the beta chain of human glycoprotein Ib (GPIb), the platelet receptor for von Willebrand factor, has been established by a combination of cDNA cloning and amino acid sequence analysis. A lambda phage cDNA expression library prepared from human erythroleukemia cells (HEL cells) was screened with a radiolabeled affinity-purified rabbit polyclonal antibody to the beta chain of GPIb. Eighteen positive clones were isolated and plaque-purified and the nucleotide sequences of three were determined. The composite sequence spanned 968 nucleotides and included a 5' untranslated region of 22 nucleotides, an open reading frame of 618 nucleotides encoding a signal peptide of 28 amino acids and a mature protein of 181 amino acids, a stop codon, and a 3' noncoding region of 307 nucleotides. The 3' noncoding sequence also contained a polyadenylylation signal (AATAAA) 14 nucleotides upstream from the poly(A) tail of 18 nucleotides. Edman degradation of the intact beta chain and of peptides produced by chemical cleavage yielded amino acid sequences spanning 76 residues that were identical to those predicted from the cDNA. The amino-terminal region of the beta chain contains a leucine-rich sequence of 24 amino acids that is similar to a sequence that occurs as seven tandem repeats in the alpha chain of GPIb and nine tandem repeats in leucine-rich alpha 2-glycoprotein. The leucine-rich sequence in the beta chain of GPIb is flanked on both sides by amino acid sequences that are similar to those flanking the leucine-rich tandem repeats of the alpha chain of GPIb and leucine-rich alpha 2-glycoprotein. The amino-terminal region of the beta chain of GPIb is followed by a transmembrane segment of 25 amino acids and an intracellular segment of 34 amino acids at the carboxyl terminus of the protein. The intracellular segment contains an unpaired cysteine and two potential sites for phosphorylation by cAMP-dependent protein kinase.     

Human c-myb protooncogene: nucleotide sequence of cDNA and organization of the genomic locus.

We have isolated cDNA clones of the human c-myb mRNA that contain approximately 3.4 kilobases of the approximately 3.8-kilobase mRNA sequence. Nucleotide sequence analysis shows that the c-myb mRNA contains an open reading frame of 1920 nucleotides, which could encode a 72-kDa protein. The cDNA nucleotide sequence and the predicted amino acid sequence of the c-myb protein are highly homologous to the corresponding chicken and mouse proteins. In particular, a region toward the NH2 terminus of the protein containing a 3-fold tandem repeat of 51 residues is evolutionarily conserved and is the only region of homology with the Drosophila c-myb protein. This region may represent a functionally important structure, most likely the DNA-binding domain. cDNA clones have been used to isolate genomic clones and to define a preliminary intron/exon organization of the c-myb gene. Identification of 5' and 3' coding and noncoding exons indicates that the human c-myb locus spans a 40-kilobase region.     

cDNA sequence of rat liver fructose-1,6-bisphosphatase and evidence for down-regulation of its mRNA by insulin.

A coding-length clone of rat liver fructose-1,6-bisphosphatase (EC 3.1.3.11) was isolated by immunological screening of a cDNA library in lambda gt11. Its identity was verified by comparing the deduced amino acid sequence with that obtained by direct sequencing of a complete set of CNBr and proteolytic peptides from the purified protein. The enzyme subunit is composed of 362 amino acids and has N-acetylvaline as the amino-terminal residue. The cDNA, 1255 base pairs (bp) long, consisted of 1086 bp of coding region, 15 bp of 5' untranslated sequence, and 154 bp at the 3' untranslated end. The 3' untranslated sequence contained a polyadenylylation signal (AATAAA) followed after 30 bp by a stretch of 7 adenines at the end of the clone. The deduced amino acid sequence was identical to the primary sequence of the protein and confirmed the alignment of five nonoverlapping peptides. It also confirmed the 27-residue extension, unique to the rat liver subunit, ending with a carboxyl-terminal phenylalanine. RNA blot analyses using the radiolabeled liver cDNA as a probe revealed a single band of fructose-1,6-bisphosphatase mRNA, 1.4 kilobases long, in liver and kidney but not in nongluconeogenic tissues. Fructose-1,6-bisphosphatase mRNA was increased 10-fold in livers from diabetic rats and was reduced to control levels after 24 hr of insulin treatment, suggesting that the changes in enzyme activity observed in diabetes and after insulin treatment are due to alterations in mRNA abundance.