Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.3.1.108 (TAT)
2,389 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In four abnormal fibrinogens with a point mutation in the gamma chain, all characterized by impaired fibrin polymerization, we identified single base exchanges in the respective mutant gamma chain genes by polymerase chain reaction followed by DNA sequence analysis. These base exchanges accounted for the amino acid substitutions previously reported from our laboratory. They were exchanges of C to T (CGC for gamma Arg-275 to TGC for Cys) in fibrinogen Osaka II, T to G (AAT for gamma Asn-308 to AAG for Lys) in fibrinogen Kyoto I, T to C (ATG for gamma Met-310 to ACG for Thr) in fibrinogen Asahi, and G to T (GAT for gamma Asp-330 to TAT for Tyr) in fibrinogen Kyoto III. These base exchanges were found to reside in exon VIII of the gamma chain gene. Since many abnormal molecules are associated with polymerization defects, unless associated with the impaired release of fibrinopeptides A and/or B, exon VIII of the gamma chain gene may deserve careful study to define the structural alterations.
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PMID:Gene analyses of abnormal fibrinogens with a mutation in the gamma chain. 142 Nov 74

Molecular analysis of the human beta-galactosidase gene revealed six different mutations in 10 of 11 Japanese GM1-gangliosidosis patients. They were the only abnormalities in each allele examined in this study. A 165-nucleotide duplication (positions 1103-1267) was found in two infantile patients, producing an abnormally large mRNA; one patient was probably a homozygote, and the other was a heterozygote of this mutation. The other two infantile patients had different mutations; a 123 Gly(GGG)----Arg(AGG) mutation in one patient and a 316 Tyr(TAT)----Cys(TGT) mutation in the other. A 201 Arg(CGC)----Cys(TGC) mutation, eliminating a BspMI site, was detected in a late-infantile/juvenile patient; the restriction-site analysis of amplified genomic DNA confirmed his heterozygosity for this mutation. A 51 Ile(ATC)----Thr(ACC) mutation was found in all five adult/chronic patients examined in this study. It created a SauI site, and restriction-site analysis confirmed that four patients were homozygous mutants. The other was a compound heterozygote for this mutation and another 457 Arg(CGA)----Gln(CAA) mutation. These mutant genes expressed markedly decreased or completely deficient enzyme activities in beta-galactosidase-deficient human fibroblasts transformed by adenovirus-SV40 recombinants. We conclude that gene mutations are heterogeneous in GM1-gangliosidosis but that the 51 Ile(ATC)----Thr(ACC) mutation is common among the Japanese adult/chronic cases. Genotype-phenotype correlations in GM1-gangliosidosis are briefly discussed.
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PMID:Human beta-galactosidase gene mutations in GM1-gangliosidosis: a common mutation among Japanese adult/chronic cases. 190

Mouse immunoglobulin heavy-chain variable region (Ig VH) genes apparently arose from the approximately 600-base-pair-long (approximately 12 tandem repeats of the 48-base-pair-long primordial building block sequence TTC-AGC-AGC-CTG-ACT-GGA-TAT-GAC-CTG-GAG-TGG-ACT-TAC-TGC-GCA-AGA) that in the original reading frame specified the amino acid sequence Phe-Ser-Ser-Leu-Thr-Gly-Tyr-Asp-Leu-Glu-Trp-Thr-Tyr-Cys-Ala-Arg. The previously identified, shorter prototype building blocks merely represented particular portions of the above primordial sequence. Even today, the direct descendant in toto of this primordial sequence specifies the last one-sixth of each VH coding sequence: the 83rd to 98th amino acid residues. Furthermore, its four truncated derivatives specify the 4th to 14th, 17th to 23rd, 29th to 37th, and 38th to 48th amino acid residues. Accordingly, all three relatively invariant--therefore, conserved--framework regions (FW-1, FW-2, and FW-3) of VHs are specified by recognizable--therefore, conserved--descendants of the primordial sequence.
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PMID:Identification of the 48-base-long primordial building block sequence of mouse immunoglobulin variable region genes. 680 49

Nature is condemned to play variations of the same theme in evolution, past commitments progressively restricting freedom of choices in evolutionary directions. While each family of genes evolved by the mechanism of gene duplication, this mechanism is extremely inefficient, the usual fate of redundant copies of the ancestral gene being degeneracy. As a result, the euchromatic DNA of higher organisms became a desert in which still-functioning genes are found scattered like oases at an average distance of 35,000 base-pairs of barren stretch between neighbors in the case of mammals. The 20-base-long sequence (AGCTG) (AGCTG) (AGCTG) (GGGTG) can be considered as one of the few ultimate ancestors of all euchromatic DNAs. Long stretches of intergenic spacers are mostly represented by degenerate subfamilies of repeats derived from the above. Certain 30- 50-base-long units of such degenerate subfamilies apparently served as the primordial building block of the ultimate ancestor of each family of genes. For example, the primordial building block of the ancestor for antigen-binding sites (variable regions) of mammalian immunoglobulin heavy chains apparently was TTC-AGC-AGC-CTG-ACT-GGA-TAT GAC-CTG-GAG-TGG-ACT-TAC-TGC-GCA-AGA, which is the original reading frame specified in the 16-amino-acid-residues-long sequence Phe-Ser-Ser-Leu-Thr-Gly-Tyr-Asp-Leu-Glu-Trp-Thr-Tyr-Cys-Ala-Arg.
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PMID:Evolution is condemned to rely upon variations of the same theme: the one ancestral sequence for genes and spacers. 682 Jan 35

A new HLA-B18 allele (B*1802) derived from a Thai individual was sequenced. Comparison of this B18 nucleotide sequence with the published B*1801 sequence indicated that this Asian B18 allele has a nucleotide sequence different from that of B*1801. Three nucleotide changes were observed in exon 3, in which two substitutions at codon 97, AGG in B*1801 to AAT in the B*1802, result in an amino acid change from arginine to asparagine. The residue 97Asn has also been described in some B27 subtypes. A silent mutation was also observed at codon 99, TAC in B*1801 to TAT in the B*1802. This sequence has been reported in many class I alleles published so far. Moreover, 18 HLA-B18-positive samples were examined by the PCR-SSO method using specific probes for B*1801 and B*1802. The results demonstrated that three Asian samples possess B*1802 and share HLA-Cw7, DR12, and DQ7.
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PMID:A new B18 sequence (B*1802) from Asian individuals. 775 Nov 57

The molecular basis of the classical human phosphoglucomutase 1 (PGM1) isozyme polymorphism has been established. In 1964, when this genetic polymorphism was first described, two common allelozymes PGM1 and PGM1 2 were identified by starch gel electrophoresis. The PGM1 2 isozyme showed a greater anodal electrophoretic mobility than PGM1 1. Subsequently, it was found that each of these allelozymes could be split, by isoelectric focusing, into two subtypes; the acidic isozymes were given the suffix + and the basic isozymes were given the suffix -. Hence, four genetically distinct isozymes 1+, 1-, 2+, and 2- were identified. We have now analyzed the whole of the coding region of the human PGM1 gene by DNA sequencing in individuals of known PGM1 protein phenotype. Only two mutations have been found, both C to T transitions, at nt 723 and 1320. The mutation at position 723, which changes the amino acid sequence from Arg to Cys at residue 220, showed complete association with the PGM1 2/1 protein polymorphism: DNA from individuals showing the PGM1 1 isozyme carried the Arg codon CGT, whereas individuals showing the PGM1 2 isozyme carried the Cys codon TGT. Similarly, the mutation at position 1320, which leads to a Tyr to His substitution at residue 419, showed complete association with the PGM1+/- protein polymorphism: individuals with the + isozyme carried the Tyr codon TAT, whereas individuals with the - isozyme carried the His codon CAT. The charge changes predicted by these amino acid substitutions are entirely consistent with the charge intervals calculated from the isoelectric profiles of these four PGM1 isozymes. We therefore conclude that the mutations are solely responsible for the classical PGM1 protein polymorphism. Thus, our findings strongly support the view that only two point mutations are involved in the generation of the four common alleles and that one allele must have arisen by homologous intragenic recombination between these mutation sites.
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PMID:The classical human phosphoglucomutase (PGM1) isozyme polymorphism is generated by intragenic recombination. 790 68

The decoded amino acid sequence of a salivary protein variant, histatin 3-2 (formerly termed Pb c), that is found primarily and in high frequency in Black populations was determined by genomic PCR and direct sequencing of the HIS2(2) allele. Two different mutations that cause coding changes were found in exon 5. The first mutation is a single nucleotide (T-->A) substitution that causes a TAT (Tyr)-->TAA (Stop) change at residue 28. This premature stop mutation results in a 27 amino acid histatin 3-2 protein, which is 5 amino acids smaller than the common histatin 3-1 allelic protein (a product of the HIS2(1) allele). The second mutation, a single nucleotide (G-->A) substitution (located only 19 nucleotides upstream of the first mutation) causes a CGA (Arg)-->CAA (Gln) change at residue 22, which eliminates a proteolytic cleavage site. These two mutations explain the differences in electrophoretic patterns of HIS2(1) versus HIS2(2) coded histatin peptides and may have functional significance. Each mutation alters a different DNA restriction site, and this provides a DNA-based test for the mutations. This test should greatly simplify population and family studies of this protein polymorphism, since the saliva-based test is considerably more problematic. Elucidation here of the derived protein sequence of the variant histatin 3-2 protein may also facilitate functional studies.
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PMID:Two coding change mutations in the HIS2(2) allele characterize the salivary histatin 3-2 protein variant. 795 Dec 54

The HLA-B70 antigen is among the most common antigens present in African Americans; however, monospecific serologic reagents defining B70 and its subtypes, B71 and B72, are rare. We have recently reported the molecular characterization of a B71 allele (B*1510) from an African American individual carrying the haplotype HLA-A30, Cw3, B71(w6). In order to better define the degree of polymorphism of molecules carrying the B71 serological specificity in the human population, we have used serology, cDNA sequencing, and PCR/SSOP typing to characterize B71 alleles from additional individuals from different ethnic populations and carrying different class I haplotypes. All carried either B*1510 or B*1518 alleles. Other HLA-B alleles isolated from these individuals (B*5001, B*4901, B*3501, B*3701) were identical to previously reported sequences except for a novel B41 allele (B*4102) identified in one Hispanic individual. This allele has concurrently been identified by Rufer and colleagues in Caucasian individuals. The B*4102 allele differs from B*4101 at codons 95 (Leu/Trp) and 97 (Ser/Arg). In addition, the B*4102 allele differs from B*4101 by two silent substitutions at codons 94 (ACC/ACT) and 99 (TAC/TAT). Since the polymorphic sequence present in B*4102 is also present in other HLA-B alleles (e.g.., B*2707, B*4002, B*0702), it may represent a gene conversion cassette. The allelic diversity at the class I loci and the scarcity of monospecific alloantisera support the importance of the application of molecular based methods to identify HLA class I alleles in matching unrelated donor/recipient pairs for bone marrow transplantation.
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PMID:Molecular and serological characterization of HLA-B71 in association with different class I haplotypes or in different ethnic groups. 892 13

The carboxyl-terminal three-fourths of the hepatitis C virus (HCV) NS3 protein has been shown to possess an RNA helicase activity, typical of members of the DEAD box family of RNA helicases. In addition, the NS3 protein contains four amino acid motifs conserved in DEAD box proteins. In order to inspect the roles of individual amino acid residues in the four conserved motifs (AXXXXGKS, DECH, TAT, and QRRGRTGR) of the NS3 protein, mutational analysis was used in this study. Thirteen mutant proteins were constructed, and their biochemical activities were examined. Lys1235 in the AXXXXGKS motif was important for basal nucleoside triphosphatase (NTPase) activity in the absence of polynucleotide cofactor. A serine in the X position of the DEXH motif disrupted the NTPase and RNA helicase activities. Alanine substitution at His1318 of the DEXH motif made the protein possess high NTPase activity. In addition, we now report inhibition of NTPase activity of NS3 by polynucleotide cofactor. Gln1486 was indispensable for the enzyme activity, and this residue represents a distinguishing feature between DEAD box and DEXH proteins. There are four Arg residues in the QRRGRTGR motif of the HCV NS3 protein, and the second, Arg1488, was important for RNA binding and enzyme activity, even though it is less well conserved than other Arg residues. Arg1490 and Arg1493 were essential for the enzymatic activity. As the various enzymatic activities were altered by mutation, the enzyme characteristics were also changed.
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PMID:Mutational analysis of the hepatitis C virus RNA helicase. 937

Androgen insensitivity syndromes are due to defects in the androgen receptor gene. In this study, we analyzed the androgen receptor gene in four cases with complete androgen insensitivity syndrome. In patient 1, one substitutional mutation [arginine (codon CGC) to cysteine (codon TGC) at position 774] of exon F was identified. This position was located in the hormone binding domain and appeared to be one hot spot of mutations because the mutations at the same position in several unrelated cases were reported before. In patient 2, one substitutional mutation [tyrosine (codon TAT) to cysteine (codon TGT) at position 571] of exon B was identified. This position was located in the DNA binding domain. In patients 3 and 4 (siblings), one substitutional mutation [arginine (codon CGA) to glutamine (codon CAA) at position 752] of exon E was identified. Taken together, these abnormalities might be related to the pathogenesis of complete androgen insensitivity.
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PMID:Molecular analysis of the androgen receptor gene in 4 patients with complete androgen insensitivity. 954 75


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