Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.2 (endonuclease)
 18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mutation that causes a deficiency of the lysosomal amidase, glycosylasparaginase, has been characterized in fibroblasts from three Finnish patients diagnosed with aspartylglucosaminuria (AGU). The polymerase chain reaction was used to amplify the glycosylasparaginase protein coding sequence from the three AGU patients in order to compare them to the normal sequence from a full-length human placenta cDNA clone HPAsn.6 (Fisher, K.J., Tollersrud, O.K., and Aronson, N.N., Jr. (1990) FEBS Lett. 269, 440-444). Two base changes were found to be common to all three Finnish AGU patients, a G482----A transition that results in an Arg161----Gln substitution and a G488----C transversion that causes Cys163----Ser. Detection of both point mutations from PCR-amplified cDNA or genomic DNA was facilitated by their creation of new endonuclease restriction sites. Expression studies in COS-1 cells revealed only the Cys163----Ser mutation caused a deficiency of glycosylasparaginase activity. This same substitution also prevented the normal posttranslational processing of the precursor glycosylasparaginase polypeptide into its alpha and beta subunits. Cell-free expression of the single-chain glycosylasparaginase precusor did not produce an active enzyme, suggesting that post-translational generation of subunits may be required for catalytic activity.
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PMID:Characterization of the mutation responsible for aspartylglucosaminuria in three Finnish patients. Amino acid substitution Cys163----Ser abolishes the activity of lysosomal glycosylasparaginase and its conversion into subunits. 190 74

Eucaryotic expression vectors have been used to study transient expression of the avian sarcoma-leukosis retrovirus pol-endo protein in COS cells. The constructs encode proteins with N termini identical to that of authentic viral pp32 endonuclease with the exception of a single met residue encoded by the initiator AUG. The C termini correspond to unprocessed viral pol protein, authentic processed pp32, or a derivative which includes eight amino acids from the unprocessed portion. All three proteins localize to the nucleus. However, when the pol-endo domain is fused to a secretory signal peptide, the protein is found in medium and appears also to localize in the Golgi bodies and the cell membrane. These and derivative vectors will make it possible to assess the consequence of retroviral pol gene expression in eucaryotic cells.
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PMID:Avian sarcoma-leukosis virus pol-endo proteins expressed independently in mammalian cells accumulate in the nucleus but can be directed to other cellular compartments. 244 17

Mammalian ribonucleotide reductase consists of two nonidentical subunits, proteins M1 and M2, which are differentially regulated during the cell cycle. We have isolated expressible cDNA clones of both subunits from an Okayama-Berg cDNA library made with mRNA from hydroxyurea-resistant, M2 protein-overproducing mouse TA3 cells. Expression of M2 protein could be demonstrated by electron paramagnetic resonance spectroscopy after transfection of COS-7 monkey cells with the plasmid. Electrophoresis and blot analyses of the parent and hydroxyurea-resistant TA3 mRNA revealed two M2 transcripts, a major one of 2.1 kilobases and a minor one of about 1.6 kilobases. Restriction endonuclease mapping of the corresponding cDNAs indicated that the two mRNAs differed only in the length of the 3' untranslated ends. By contrast, there was only one mRNA corresponding to the M1 protein, and its mobility corresponded to about 3.1 kilobases. The hydroxyurea-resistant TA3 cells contained a 50- to 100-fold excess of the M2 mRNAs over that of the parent cells and a 10-fold excess of the M1 mRNA. However, a Southern blot analysis of the corresponding genomic DNA sequences showed that the M2 gene was amplified fivefold but the M1 gene was still single copy. The complete nucleotide sequence of the 2,111-base-pair-long M2 cDNA revealed an open reading frame coding for 390 amino acids, which corresponds to a molecular weight of 45,100. The mouse M2 protein sequence was quite homologous to the equivalent protein in the clam Spisula solidissima, while the homology to the smaller subunits of Epstein-Barr virus, herpes simplex virus type 2, and Escherichia coli ribonucleotide reductases were less pronounced.
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PMID:Isolation and characterization of expressible cDNA clones encoding the M1 and M2 subunits of mouse ribonucleotide reductase. 302 93

The K562 human leukemia cell is an erythroid-like cell that may serve as a model for the study of globin gene expression in transcriptionally active human erythroid cells. K562 cells express all globin genes with the exception of that for beta-globin; failure to produce beta-globin could result from an acquired mutation in each of the beta-globin genes or from an alteration in the regulatory factor environment of the beta-globin gene. To uncover a possible acquired mutation, restriction endonuclease analysis of genomic K562 DNA and expression studies of a cloned K562 beta-globin gene were carried out. Restriction endonuclease analysis revealed no structural alteration of the K562 beta-globin genes. Analysis of the polymorphic Ava II site in intervening sequence 2 of the beta-globin gene showed that K562 cells contain two different beta-globin alleles, both of which are inactive. A K562 beta-globin gene was cloned, ligated into the expression vector pLTN3B, and introduced into COS cells. Transcripts were analyzed by RNA blot, dot blot, S1 nuclease mapping, and primer extension assay. The cloned K562 beta-globin gene was transcribed in COS cells as efficiently as a normal beta-globin gene introduced into COS cells; the mRNA was 10 S and polyadenylylated; the 5' and 3' termini and the processing of transcripts were identical to that of mRNA transcribed from a normal gene. Based on these data we suggest that the absence of beta-globin gene expression results not from an alteration in the beta-globin gene, but from a quantitative or qualitative alteration in a trans-acting factor important in beta-globin gene expression.
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PMID:A beta-globin gene, inactive in the K562 leukemic cell, functions normally in a heterologous expression system. 620 98

The human insulin gene or the corresponding cDNA has been inserted into the early region of a simian virus 40 vector in which all SV40 splice junctions were deleted while the early promoter and polyadenylation regions remained intact. The expression of insulin-coding sequences was tested in permissive monkey COS cells. The insulin cDNA was transcribed from the early promoter to produce a stable polyadenylated RNA which was translated, and immunoreactive human proinsulin accumulated in the medium. Thus RNA splicing is not obligatory for insulin expression in this system. The genomic insulin transcript was also initiated from the SV40 promoter and terminated at the SV40 polyadenylation site. S1 endonuclease mapping revealed that the transcript is processed via two alternative splicing pathways within the insulin gene. About one-third of the total transcripts are processed normally with removal of the two insulin-specific introns. This transcript is apparently translated normally since immunoreactive proinsulin accumulates in the medium. About two-thirds of the transcripts are processed via an alternative splicing pathway involving a new splice acceptor site located within the coding region of the insulin gene. This results in a codon frameshift such that translation would produce a novel chimeric peptide containing the insulin NH2-terminal B chain, but a different COOH terminus containing human and SV40 sequences. A peptide of the predicted size is detected in the COS cell extract.
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PMID:Expression of the human insulin gene and cDNA in a heterologous mammalian system. 630 25

Familial male-limited precocious puberty (FMPP) is an autosomal dominant disorder characterized by marked elevation of serum testosterone despite low levels of gonadotropin. Recently, a single point mutation in the LH/hCG receptor (LH/CGR) gene was found in FMPP families that constitutively activates the LH/CGR, causing Leydig cell activation and precocious puberty. Among the Japanese population, only four sporadic cases of male-limited precocious puberty have been reported. In the current study, we examined one of the four reported Japanese patients with sporadic male-limited precocious puberty and found the same mutation as that in the FMPP families. Genomic DNA was isolated, and the polymerase chain reaction (PCR) was performed to amplify a fragment of LH/CGR DNA encoding amino acid residues that include transmembrane helixes 5 and 6. Sequencing of the PCR products revealed a heterozygous adenosine-guanine transition at nucleotide 1733 in codon 578. The mutation encodes an aspartic acid578-glycine substitution in transmembrane helix 6. The mutant LH/CGR, created by site-directed mutagenesis in vitro, exhibited constitutively higher cAMP levels in transfected COS-7 cells than the wild-type LH/CGR, as described previously; however, basal inositol phosphate levels were not increased by transfection with complementary DNA for the mutant receptor. The concentration and affinity of [125I]hCG-binding sites were similar in cells transfected with the mutant and wild-type LH/CGR complementary DNAs, indicating that the mutant did not alter the production of receptor or its ability to bind human LH/CG. The sporadic occurrence of this case was confirmed by further studies. The mutation creates a recognition site for the restriction endonuclease MspI. Restriction digestion was positive for the mutant not digested by MspI, indicating that the patient's mutant allele was not inherited from his parents. DNA analysis of the patient and the parents, using microsatellite repeat markers, was compatible with biological paternity and maternity. We conclude that the aspartic acid578-->glycine mutation in the LH/CGR has arisen in the Japanese population and is the cause of a sporadic case of male-limited precocious puberty.
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PMID:A sporadic case of male-limited precocious puberty has the same constitutively activating point mutation in luteinizing hormone/choriogonadotropin receptor gene as familial cases. 752 13

We have characterized the molecular defect causing lecithin:cholesterol acyltransferase (LCAT)-deficiency (LCAT-D) in the LCAT gene in three siblings of Austrian descent. The patients presented with typical symptoms including corneal opacity, hemolytic anemia, and kidney dysfunction. LCAT activities in the plasma of these three patients were undetectable. DNA sequence analysis of polymerase chain reaction (PCR)-amplified DNA of all six LCAT exons revealed a new point mutation in exon IV of the LCAT gene, i.e., a G to A substitution in codon 140 converting Arg to His. This mutation caused the loss of a cutting site for the restriction endonuclease HhaI within exon IV: Upon digestion of a 629-bp exon IV PCR product with HhaI, the patients were found to be homozygous for the mutation. Eight of 11 family members were identified as heterozygotes. Transfection studies of COS-7 cells with plasmids containing a wild-type or a mutant LCAT cDNA revealed that, in contrast to the cell medium containing wild-type enzyme, no enzyme activity was detectable upon expression of the mutant protein. This represents strong evidence for the causative nature of the observed mutation for LCAT deficiency in affected individuals and supports the conclusion that Arg140 is crucial for the structure of an enzymatically active LCAT protein.
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PMID:A single G to A nucleotide transition in exon IV of the lecithin: cholesterol acyltransferase (LCAT) gene results in an Arg140 to His substitution and causes LCAT-deficiency. 760 41

The use of combinatorial Ig libraries displayed on the surface of bacteriophage has advantages over traditional hybridoma techniques for the generation of mAbs but in many instances full length Igs may be more desirable than Fab fragments. Two murine Fabs reactive with the human complement component C5a, recovered from a combinatorial library, were converted to full length IgG2a mAbs. The VH and VL domains of these antibodies were removed from the bacterial expression vector used for the combinatorial library construction, and subcloned into individual mammalian expression vectors containing the corresponding Ig heavy and light chain constant regions. The subcloning relied on 5' restriction endonuclease sites encoded by the oligonucleotide primers originally used to amplify the Ig cDNAs and 3' sites conserved in CH1 and C kappa. These vectors were co-transfected into COS cells yielding full length IgG2a versions of the anti-C5a antibodies. The mAbs, purified from the culture supernatant, retained the full activity of the Fabs, binding specifically to and neutralizing human recombinant C5a. Refined versions of the mammalian expression vectors have been constructed for single step conversion of murine recombinant Fabs, recovered from combinatorial libraries, to IgG2a mAbs.
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PMID:Conversion of murine Fabs isolated from a combinatorial phage display library to full length immunoglobulins. 765 22

Constitutively active nitric oxide synthases (NOS) are a unique class of NADPH-dependent, calcium/calmodulin-dependent enzymes that catalyze the conversion of L-arginine to nitric oxide and L-citrulline. However, little is known about the molecular similarities or differences between the two prototypical constitutive NOS enzymes, endothelial NOS (ECNOS) and brain NOS (bNOS). The aims of this study were to begin characterizing the gene structure and tissue distribution of messenger RNAs (mRNAs) for ECNOS and bNOS and to examine the immunological resemblance of the proteins by Western blotting. Full-length complementary DNAs (cDNAs) encoding bovine ECNOS and rat bNOS hybridized, under high stringency, to different-sized fragments of endonuclease-digested bovine, rat, and human genomic DNA. In addition, more than one fragment was detected with both cDNAs, suggesting that ECNOS and bNOS genes contained multiple introns. Tissue distribution of ECNOS mRNA (4.4 kb) and bNOS mRNA (9.5 kb) in the rat was detected by Northern blotting. Patterns among tissue extracts were strikingly different, with ECNOS mRNA being most abundant in aorta, heart, lung, kidney, adrenal gland, spinal cord, and urogenital tissues and bNOS mRNA most prominent in brain regions, intestine, stomach, spinal cord, adrenal gland, and aorta. Interestingly, ECNOS cDNA detected two equally abundant RNA transcripts (4.4 and 4.0 kb) in most brain regions tested, suggesting an alternative splicing of the ECNOS pre-mRNA. Western blotting, using an ECNOS monoclonal antibody, recognized ECNOS protein from native bovine endothelial cells, cultured bovine endothelial cells, and COS cells transfected with ECNOS cDNA but did not recognize purified bNOS.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Genomic analysis and expression patterns reveal distinct genes for endothelial and brain nitric oxide synthase. 768 5

The expression of Lewis fucosyltransferase (FT) mRNA was examined in gastric mucosa from two Lewis-positive [Le(+)] and two Lewis-negative [Le(-)] individuals. Northern blot analysis demonstrated that levels of mRNA were similar in both Le(+) and Le(-) gastric mucosa. We isolated the protein-coding region of the Lewis FT cDNA from Le(+) and Le(-) gastric mucosa by polymerase chain reaction (PCR) amplification. The sequence of cDNA from the Le(-) gastric mucosa shows two single-base substitutions of G for T at position 59 and of A for G at position 508 from the A of the initiation codon of cDNA. These substitutions may be the cause of changes in two amino acid residues, Arg for Leu at position 20 and Ser for Gly at position 170 from the N-terminal. To determine whether either or both of these base substitutions is responsible for the Le(-) gene, we constructed chimera cDNAs and expressed them in COS cells. Those COS cells transfected with a chimera cDNA containing a mutation of the 508th nucleotide did not express Lewis antigen, whereas those cells transfected with a chimera cDNA containing the 59th nucleotide mutation expressed Lewis antigen, indicating that a single-base change from G to A at position 508 is responsible for the Le(-) gene. The G to A transition at position 508 created a new site for PvuII endonuclease. The digestion by PvuII endonuclease of PCR products between the 386th and 612th nucleotides of Lewis FT cDNA from one of the Le(-) individuals proved to be homozygous for the PvuII site. However, the other Le(-) individual was heterozygous for the PvuII site, suggesting the presence of other Le(-) allele(s). Thus, we isolated one of the silent Lewis genes (le).
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PMID:Analysis of Lewis fucosyltransferase genes from the human gastric mucosa of Lewis-positive and -negative individuals. 821 40


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