Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
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Enzyme
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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)
A generalized deficiency of the mitochondrial matrix enzyme ornithine aminotransferase (OAT) is the inborn error in gyrate atrophy (GA), an autosomal recessive degenerative disease of the retina and choroid of the eye. Mutations in the OAT gene show a high degree of molecular heterogeneity in GA, reflecting the genetic heterogeneity in this disease. Using the combined techniques of PCR, denaturing gradient gel electrophoresis, and direct sequencing, we have identified three nonsense-codon mutations and one nonsense codon-generating mutation of the OAT gene in GA pedigrees. Three of them are single-base substitutions, and one is a 2-bp deletion resulting in a reading frameshift. A nonsense codon created at position 79 (TGA) by a frameshift and nonsense mutations at codons 209 (
TAT
----TAA) and 299 (
TAC
----TAG) result in abnormally low levels of OAT mRNA in the patient's skin fibroblasts. A nonsense mutation at codon 426 (CGA----TGA) in the last exon, however, has little effect on the mRNA level. Thus, the mRNA level can be reduced by nonsense-codon mutations, but the position of the mutation may be important, with earlier premature-translation termination having a greater effect than a later mutation.
...
PMID:Nonsense-codon mutations of the ornithine aminotransferase gene with decreased levels of mutant mRNA in gyrate atrophy. 160 8
Theoretical computations are performed of the comparative binding affinities of five polymethylene carboxamide derivatives of 9-aminoacridine to a series of double-stranded hexanucleotides. The purpose of this investigation is to ascertain whether minor groove recognition of a guanine base adjacent to the intercalation site can occur, and be preferentially stabilized, for a given length of the polymethylene side chain, encompassing from n = 2 up to n = 6 methylene groups. For that purpose, several representative sequences were investigated, in which intercalation of the 9-aminoacridine chromophore occurred at a central d(CpG) or d(TpA) step. Investigated were the self-complementary sequences d(CGCGCG)2, d(GCCGGC)2, d(TATATA)2 and d(ATTAAT)2, as well as the 'mixed' sequences d(ACTAAT) .d(ATTAGT) and d(TGTATA). d(TATACA). For n = 3 up to n = 6, such a recognition was enabled only when the guanine base was located downstream of the intercalation site, i.e. with steps d(CGG) and d(TAG). It occurred by means of a bidentate interaction involving, on the one hand, H(N2) and N3 of the base, and, on the other hand, the carbonyl oxygen and the cis amino hydrogen of the terminal formamide moiety of the ligand. Because of the flexibility of the side chain, however, alternative binding modes were also found to occur competitively, involving backbone-only interactions of the side chain. On the basis of the present computations, upon binding to the sequence d(GCCGGC)2, an optimal value of n = 5 could be derived, with the corresponding acridine derivative eliciting both a significant prevalence of the bidentate over backbone only binding mode, and the most favourable energy balance within the investigated series. This privileged value of n = 5 is fully consistent with the experimental results of Markovits et al. and Gaugain et al. The very flexibility of the side chain, however, hampered any preferential recognition of a triplet sequence with a downstream guanine, such as d(CGG) or d(TAG), to be elicited over sequences such as d(TAA), d(
TAT
) or d(
TAC
).
...
PMID:A theoretical investigation of the base sequence preferences of monointercalating polymethylene carboxamide derivatives 9-aminoacridine. 231 37
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
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.
...
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.
...
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.
...
PMID:A new B18 sequence (B*1802) from Asian individuals. 775 Nov 57
All mitochondrial tRNAs in the protozoan Leishmania are believed to be encoded in the nuclear genome and imported selectively into the mitochondria by an as yet unknown mechanism. Previously, we reported that two tRNAs whose genes are tightly linked were imported by mitochondria. In contrast, a tRNA encoded by a lone tRNA gene was not detectable in mitochondria. The lone tRNA gene had flanking sequences that were different from the linked genes. These studies implied a possible correlation between tRNA gene organization and gene flanking sequence, and selective tRNA import into mitochondria. Here, we report the identification of a cluster of 10 tRNA genes and show the distribution of the corresponding tRNAs in cytosolic and mitochondrial fractions. tRNA(leu)(CAG) and tRNA2(arg)(TCG) are abundant in the cytosol, but relatively scarce in mitochondria. Conversely, tRNA(ile)(
TAT
) and tRNA1(lys)(TTT) are abundant in mitochondria, but relatively scarce in the cytosol. tRNA(val)(
TAC
) and tRNA2(thr)(TGT) are barely detectable in either cellular compartment, while tRNA(gln)(TTG), tRNA1(arg)(ACG), tRNA(gly)(TCC), and tRNA(trp)(CCA) are detected in approximately equal levels in both compartments. Sequencing of the 2600 bp that comprise the tRNA gene cluster also encoding the genes for 5S RNA and URNAB RNA indicates that nucleotide composition, length, and location of genes within the cluster do not clearly correlate with import characteristics. The unexpected presence of the tRNA(trp)(CCA)-gene transcript in mitochondria is also reported. Evidence suggests that this tRNA may have unidentified base modifications at the anticodon triplet.
...
PMID:A nuclear tRNA gene cluster in the protozoan Leishmania tarentolae and differential distribution of nuclear-encoded tRNAs between the cytosol and mitochondria. 793 26
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.
...
PMID:Molecular and serological characterization of HLA-B71 in association with different class I haplotypes or in different ethnic groups. 892 13
Upon prolonged treatment with various antiretroviral nucleoside analogs such as 3'-azido-3'-deoxythymidine, 2',3'-dideoxyinosine, 2',3'-dideoxycytidine, (-)- beta-L-2', 3'dideoxy-3'thiacytidine and 2',3'-didehydro-3'-deoxythymidine, selection of human immunodeficiency virus type 1 (HIV-1) strains with mutations in the reverse transcriptase (RT) gene has been reported. We designed a reverse hybridization line probe assay (LiPA) for the rapid and simultaneous characterization of the following variations in the RT gene: M41 or L41; T69, N69, A69, or D69; K70 or R70; L74 or V74; V75 or T75; M184, I184, or V184; T215, Y215, or F215; and K219, Q219, or E219. Nucleotide polymorphisms for codon L41 (TTG or CTG), T69 (ACT or ACA), V75 (GTA or GTG), T215 (ACC or ACT), and Y215 (
TAC
or
TAT
) could be detected. In addition to the codons mentioned above, several third-letter polymorphisms in the direct vicinity of the target codons (E40, E42, K43, K73, D76, Q182, Y183, D185, G213, F214, and L214) were found, and specific probes were selected. In total, 48 probes were designed and applied to the LiPA test strips and optimized with a well-characterized and representative reference panel. Plasma samples from 358 HIV-infected patients were analyzed with all 48 probes. The amino acid profiles could be deduced by LiPA hybridization in an average of 92.7% of the samples for each individual codon. When combined with changes in viral load and CD4+ T-cell count, this LiPA approach proved to be useful in studying genetic resistance in follow-up samples from antiretroviral agent-treated HIV-1-infected individuals.
...
PMID:Line probe assay for rapid detection of drug-selected mutations in the human immunodeficiency virus type 1 reverse transcriptase gene. 902 Nov 81
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