Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.3.1.108 (TAT)
 2,389 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have developed a sensitive assay for leptospira, using the polymerase chain reaction (PCR). On the basis of the published nucleotides sequence of 23S rRNA gene from Leptospira interrogans serovar canicola strain Moulton, primers were chosen to produce an amplified fragment of 123 bp. Primer A: 5'GAT CTA ATT CGC TGT AGC AGG3' and primer B: 5'ACT TTC ACC CTC TAT GGT CGG3' Eight different svs. of Leptospira interrogans could all be detected by PCR, but the DNAs from L. biflexa. Leptonema bacteria, virus and human could not produce the specific amplified fragment. The assay detected approximately 10 fg of purified leptospiral DNA and 1 microliter serum of experimental animal. Positive results were obtained from simulated positive samples containing a single organism leptospiral DNA. The diagnostic test (proved by "gold standards": Clinical diagnosis; blood culture and MAT) showed that the sensitivity was 92.00%; the specificity 94.35%; the accuracy 92.54%; the positive predictive value 98.17%; the negative predictive value 78.13%; the positive likelihood ratio 16.25; and the negative likelihood ratio 0.0848. The diagnosis of early leptospirosis by using PCR may become a significant addition to diagnostic means.
 ...
PMID:[Detection of leptospiral DNA in the serum of 175 patients with early leptospirosis by polymerase chain reaction]. 129 12

Overlapping genomic clones of the human alpha 2-macroglobulin (alpha 2M) gene were isolated from a cosmid library and were used to map 80 kb of the chromosomal region of this gene. Fragments carrying the two exons encoding the bait region and the exon encoding the thiolester site were partially sequenced and PCR primers were designed for the amplification of both functional domains. By direct genomic sequencing of these domains in 30 healthy individuals and in 30 patients with chronic lung disease three mutations were detected. The first was a sequence polymorphism occurring near the thiolester site of the gene, changing Val1000 (GTC) to Ile1000 (ATC), with allele frequencies of 0.30 (GTC) and 0.70 (ATC), respectively. No difference of alpha 2M serum levels was observed for these two alleles. The second mutation occurred within the thiolester site of one patient, changing Cys972(TGT) to Tyr972(TAT). Since activation of the internal thiolester formed between Cys972 and Gln975 in each of the subunits of the tetrameric alpha 2M is involved in the covalent cross-linking of the activating proteinase, this mutation is predicted to interfere with alpha 2M function. The alpha 2M serum level was within the normal range in this patient. In one healthy individual we detected an alteration of the bait region sequence, which is usually encoded by two different exons separated by an intron of size 1.6 kb. In this individual, PCR amplification of genomic DNA using the bait region primers produced the common fragment of size 1.8 kb and an additional variant fragment of size 0.23 kb. This finding, and the genomic sequencing data of this individual, indicate that he carries two different alleles of the alpha 2M gene: one with the regular structure (bait exon I-intron-bait exon II), the other with the two bait exons fused into one. Direct genomic sequencing of the two alpha 2M functional domains is a useful tool for the detection of the genetic, and possibly the functional, heterogeneity of alpha 2M. This, in turn, may provide some insight into the hitherto unknown physiological role(s) of alpha 2M, by studying in vivo effects of naturally occurring mutations of the gene.
 ...
PMID:Cloning of the human alpha 2-macroglobulin gene and detection of mutations in two functional domains: the bait region and the thiolester site. 137 Aug 8

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.
 ...
PMID:Human beta-galactosidase gene mutations in GM1-gangliosidosis: a common mutation among Japanese adult/chronic cases. 190

The cleavage of DNA restriction fragments by bis(1,10-phenanthroline)copper(I) [[(OP)2CuI]+] is sequence dependent: the trimer TAT is most strongly preferred, while the trimer TGT and tetramers TAAT, TAGT, and CAGT are strongly to moderately preferred [Veal, J. M., & R. L. (1988) Biochemistry 27, 1822-1827]. [(OP)2CuI]+ cleavage of a series of oligonucleotide duplexes of the type 5'-CCCTPyPuPyCCCC-3'/3'-GGGAPuPyPuGGGG-5' (Py = pyrimidine; Pu = purine) was examined to determine the effects of purine substituents in the central triplet on specificity. The relative cleavage rates of different PyPuPy triplets in oligomers were similar to those observed for restriction fragments. The undecamer duplex containing the trimer TAT (TTATC) was most preferentially cleaved, predominantly at the central adenosine and the adjacent 3'-thymidine. Duplexes differing from TTATC by a single A.T----G.C transition in the central triplet were cleaved at significantly reduced rates relative to TTATC, the order of preference being TAT greater than TGT greater than TAC greater than CAT. By contrast, duplexes differing from TTATC by a single A.T----I.C transition were cleaved at rates similar to those for TTATC when the transition occurred at the 5'-pyrimidine or central purine [i.e., C(.I)AT and TIT]. A duplex containing the trimer TAC(.I) was cleaved at a reduced rate similar to the duplex containing TAC(.G). The guanine 2-amino group at positions 1 and 2, but not position 3, of a 5'-PyPuPy-3' trimer is therefore implicated as a strong inhibitor of DNA binding by the copper-phenanthroline complex.(ABSTRACT TRUNCATED AT 250 WORDS)
 ...
PMID:Sequence specificity of DNA cleavage by bis(1,10-phenanthroline)copper(I): effects of single base pair transitions on the cleavage of preferred pyrimidine-purine-pyrimidine triplets. 254 53

The bis(1,10-phenanthroline)copper(I) complex is a relatively simple molecule previously shown to cause DNA cleavage with a strong preference for gene control regions such as the Pribnow box. Sequence level mapping of sites of [(Phen)2CuI]+ cleavage in greater than 2000 bases in histone genes and the plasmid pUC9 showed that the specificity for control regions is related to a predominant preference for minor groove binding at TAT triplets, which were cleaved most strongly at the adenosine sugar ring. The related sequences TGT, TAAT, TAGPy, and CAGT (Py = pyrimidine) were moderately preferred, while CAT and TAC triplets, PyPuPuPu quartets, PuPuPuPy quartets, and CG-rich PyPuPuPy quartets were cleaved with low to average frequency. Polypurine and polypyrimidine sequences were cleaved with low frequency. The sequence preferences of [(Phen)2CuI]+ can be ascribed predominantly to (i) a requirement for binding in the minor groove at a pyrimidine 3'----5' step and (ii) stereoelectronic effects of the 2-amino group of guanine in the minor groove, which inhibit binding. Although the reagent appears primarily to recognize sequence features at the triplet or quartet level, lower than expected cleavage was observed for two TAT sequences adjacent to several other preferred sequences and higher than expected cleavage was observed at CAAGC sequences, suggesting that longer range sequence-dependent DNA conformational effects influence specificity in certain cases.
 ...
PMID:Sequence specificity of DNA cleavage by bis(1,10-phenanthroline)copper(I). 337 32

Long terminal repeats (LTRs) of two members of mdg1 family were sequenced. In the both cases, they are represented by perfect direct repeats 442 and 444 bp in length. Sixteen nucleotides in the LTRs of two different mdg1 elements are different. Each LTR contains slightly mismatched 16-nucleotide inverted repeats located at the ends of the LTR. Six base pairs closest to the termini of LTR form perfect inverted repeats. On the gene-distal sides of LTRs, short 4-nucleotide direct repeats are located, probably representing the duplication of a target DNA sequence arising from insertion of mdg. They are different in the two cases analyzed. Just as the other analyzed eukaryotic transposable elements, mdg1 starts with TGT and ends with ACA. Within the both strands of LTR, the sequences similar to Hogness box (a putative signal for RNA initiation, or a selector) and AATAAA blocks (putative polyadenylation signals) are present. The LTR of mdg1 contains many short direct and inverted repetitive sequences. These include a 10-nucleotide sequence forming a perfect direct repeat with the first ten nucleotides of the LTR. A region of LTR about 70 bp long is represented by simple repetitive sequences (TAT).
 ...
PMID:Mobile dispersed genetic element MDG1 of Drosophila melanogaster: nucleotide sequence of long terminal repeats. 626 83

It is shown by fluorescence spectroscopy that the post-activated form of neocarzinostatin chromophore (NCSi-glu) can form stable complexes with single-site oligonucleotides (SSOs) featuring sequences known to be involved in double stranded (AGC.GCT, AGT.ACT, AGA.TCT, ACA.TGT) or single stranded (AGG.CCT) cleavage (attacked residues in bold). Furthermore, the same SSOs form cleavage productive complexes with native neocarzinostatin chromophore (NCS chrom) over a similar concentration range. The productive complexes yield damage similar to that observed if the same sequence is part of a longer DNA piece. Previously identified double stranded site sequences ATT.AAT and TAT.ATA are shown to contain overlapping attack sites. Binding order preference derived from fluorescence quenching experiments for NCSi-glu is consistent with constants derived by quantitative cleavage affinity binding experiments with NCS chrom. This confirms the similarity in interactions between the NCSi-glu and NCS chrom and justifies the use of NCSi-glu as a stable analog of NCS chrom.
 ...
PMID:Binding and cleavage characteristics of the complexes formed between the neocarzinostatin chromophore and single site containing oligonucleotides. 758 49

Acyclic 6-phenylselenenyl- and 6-phenylthiopyrimidine derivatives are potent and specific inhibitors of human immunodeficiency virus type 1 (HIV-1). The development of in vitro resistance to two derivatives, 5-ethyl-1-(ethoxymethyl)-(6-phenylthio)-uracil (E-EPU), was evaluated by serial passage of HIV-1 in increasing concentrations of inhibitor. HIV-1 variants exhibiting > 500-fold resistance to E-EPSeU and E-EPU were isolated after sequential passage in 1, 5, and 10 microM inhibitor. The resistant variants exhibited coresistance to related acyclic 6-substituted pyrimidines and the HIV-1-specific inhibitors (+)-(5S)-4,5,6,7-tetrahydro-5- pyrimidines and the HIV-1-specific inhibitors (+)-(5S)-4,5,6,7-tetrahydro-5- methyl-6-(3-methyl-2-butenyl)imidazo[4,5,1-jk]benzodiazepin-2(1H)- thione (TIBO R82150) and nevirapine, but remained susceptible to 3'-azido-3'-deoxythymidine, 2',3'-dideoxycytidine, 2',3'-dideoxyinosine, and phosphonoformic acid. DNA sequence analysis of reverse transcriptase (RT) derived from E-EPSeU-resistant virus identified a Tyr (TAT)-to-Cys (TGT) mutation at either codon 188 (Cys-188; 9 of 15 clones) or codon 181 (Cys-181; 5 of 15 clones). The same amino acid changes were found in RT from E-EPU-resistant virus, but the Cys-181 mutation was more common (9 of 10 clones) than the Cys-188 mutation (1 of 10 clones). Site-specific mutagenesis and production of mutant recombinant viruses demonstrated that both the Cys-181 and Cys-188 mutations cause resistance to E-EPSeU and E-EPU. Of the two mutations, the Cys-188 substitution produced greater E-EPSeU and E-EPU resistance. The predominance of the Cys-188 mutation in E-EPSeU-resistant variants has not been noted for other classes of HIV-1 specific RT inhibitors. HIV-1 resistance is likely to limit the therapeutic efficacy of acyclic 6-substituted pyrimidines if they are used as monotherapy.
 ...
PMID:Resistance of human immunodeficiency virus type 1 to acyclic 6-phenylselenenyl- and 6-phenylthiopyrimidines. 784 May 79

A slow migrating variant of human serum albumin, present in lower amount than the normal protein, has been detected by routine clinical electrophoresis at pH 8.6 in two members of a family living in Asola (Lombardia, Italy). Ion-exchange chromatography of serum samples failed to separate the normal protein from the variant. Analysis of the albumin peak by SDS/PAGE revealed that the variant had a lower apparent molecular mass than its normal counterpart. However, the abnormal band was not detectable when the separation was performed under reducing conditions or when both albumins were carboxymethylated. Isoelectric-focusing analysis of CNBr fragments localized the mutation to fragment CNBr 3 (residues 124-298). This fragment was isolated on a preparative scale and subjected to tryptic digestion. Sequence determination of the abnormal tryptic peptide revealed that the variant arises from a Tyr140--> Cys substitution. This result was confirmed by DNA sequence analysis, which showed a single transition of TAT-->TGT at nucleotide position 5074. Despite the presence of an additional cysteine residue, several lines of evidence indicated that albumin Asola has no free -SH group; therefore, we propose the formation of a new S-S bond between Cys140 and Cys34, the only free sulphydryl group present in the normal protein. The relatively low level of the variant in serum and its abnormal mobility on cellulose acetate electrophoresis and SDS/PAGE are probably caused by a gross conformational change of the molecule induced by the new S-S bridge.
 ...
PMID:A genetic variant of albumin (albumin Asola; Tyr140-->Cys) with no free -SH group but with an additional disulfide bridge. 788 97

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.
 ...
PMID:The classical human phosphoglucomutase (PGM1) isozyme polymorphism is generated by intragenic recombination. 790 68


1 2 3 4 5 Next >>