Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
 5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mitogen-activated protein kinases (MAP kinases) p42mapk and p44mapk are serine/threonine kinases rapidly activated in cells stimulated with various extracellular signals by dual phosphorylation of tyrosine and threonine residues. They are thought to play a pivotal role in integrating and transmitting transmembrane signals required for growth and differentiation. Here we demonstrate that activation of these ubiquitously expressed MAP kinases is essential for growth. To specifically suppress MAP kinase activation in fibroblasts, we transiently expressed either the entire p44mapk antisense RNA or p44mapk kinase-deficient mutants (T192A or Y194F). As expected, and through independent mechanisms, both approaches strongly inhibited MAP kinase activation. The antisense reduced the expression of endogenous p42mapk and p44mapk by 90%, whereas overexpression of the T192A mutant inhibited growth factor activation of both endogenous MAP kinases by up to 70%. As a consequence, we found that the antisense as well as the T192A mutant of p44mapk inhibited growth factor-stimulated gene transcription (collagenase promoter assay with chloramphenicol acetyltransferase reporter) and cell growth. These effects were proportional to the extent of MAP kinase inhibition and reversed by coexpression of the wild-type p44mapk. Therefore we conclude that growth factor activation of p42mapk and p44mapk is an absolute requirement for triggering the proliferative response.
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PMID:Mitogen-activated protein kinases p42mapk and p44mapk are required for fibroblast proliferation. 839 1

The structure of the type III variant of chloramphenicol acetyltransferase reveals that Thr-174, a conserved residue, is hydrogen-bonded to a bound water molecule (water 252). Modeling studies (P. C. E. Moody and A. G. W. Leslie, unpublished data) suggested that water 252 could play a part in transition state stabilization via a hydrogen bond to the oxyanion of the putative tetrahedral intermediate. In addition, water 252 is one of three bound water molecules hydrogen-bonded to the 1-hydroxyl group of chloramphenicol in the chloramphenicol acetyltransferase-chloramphenicol binary complex. A combination of site-directed mutagenesis and the use of an alternative substrate has allowed the quantitation of the energetic contribution of each of the interactions made by water 252 to catalysis. Thr-174 was replaced by alanine, valine, and isoleucine, each substitution removing the hydroxyl group hydrogen-bonded to water 252. Steady-state kinetic analysis of the mutant enzymes was carried out using both chloramphenicol and 1-deoxy-chloramphenicol as acetyl acceptors. The substitutions at Thr-174 result in a fall in kcat and in decreased affinities for each acetyl acceptor in the binary complexes and also in the ternary complexes with acetyl-CoA. From the calculated free energies in the transition state, the hydrogen bond between water 252 and the oxyanion of the tetrahedral intermediate can be estimated to contribute 0.9 kcal mol-1 toward transition state stabilization, whereas the free energy of the hydrogen bonds between the 1-hydroxyl of chloramphenicol and three bound water molecules provides 1.6 kcal mol-1.
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PMID:Transition state stabilization by chloramphenicol acetyltransferase. Role of a water molecule bound to threonine 174. 840 36

Cancer-related mutations of the p53 tumor suppressor gene are clustered in the four so-called 'hot spots', codons 175, 248, 273 and 281/282. By using recombination PCR in vitro mutagenesis, we introduced point mutations into the codon 273 of wild-type (wt) p53 (pC53-SN3) from Arg to His (pC53-273H [273H]), Asp (273D), Pro (273P), Lys (273K), Leu (273L) or Thr (273T), and compared their biological and biochemical activities with wt p53 and cancer-derived 175H, 248W and 273H/309S. Among them, 273H/309S, 273H and 273D as well as wt p53 transactivated the chloramphenicol acetyltransferase (CAT) gene placed downstream of the p53 binding consensus, while none of the other mutants including 273L did. Transcriptions from human c-fos and rat PCNA promoters were suppressed by wt p53 and 273D, while they were enhanced variously by all other mutants in Saos-2 and/or NIH3T3 cells. On the other hand, growth of human squamous carcinoma cell lines measured by the plating efficiency of G418-resistant colonies was enhanced by transfection of 175H, 248W, 273H/309S and 273P, while suppressed by not only wt p53, 273D and 273H but also 273L. Thus, 273H/309S enhanced cell growth in spite of its p53-specific transactivation activity, while 273L suppressed cell growth in spite of its complete loss of the p53-specific transactivation. We concluded that the sequence-specific transactivation of p53 is not always correlated with its growth inhibitory activity.
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PMID:The 273rd codon mutants of p53 show growth modulation activities not correlated with p53-specific transactivation activity. 864 76

Human cytomegalovirus phosphoprotein pp65 is targeted to the cell nucleus immediately after infection. Deletion and point mutation analysis of the pp65 gene expressed in insect cells showed that two hydrophilic regions (HP1 and HP2) within the pp65 C-terminal 40% each harboured an independent nuclear localization signal (NLS); strong association to the nuclear stroma also requires the N-terminal domain. Either region, when fused to chloramphenicol acetyltransferase, localized the reporter protein to the nucleus in insect cells as well as in NIH 3T3 cells and human lung fibroblasts. In addition, HP1 was found to be the target of pp65 Ser/Thr phosphorylation in insect cells and a prokaryotically expressed HP1 was actively phosphorylated in vitro by casein kinase II, for which two site clusters map in HP1. These findings indicate that pp65 includes two NLSs, one of which has the potential to be modulated by phosphorylation.
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PMID:Human cytomegalovirus pp65 lower matrix phosphoprotein harbours two transplantable nuclear localization signals. 868

Recently, we have established nine nasopharyngeal carcinoma (NPC) cell lines in which only one cell line showed the p53 mutation. For investigation of the p53 mutation in this line, immunostaining using anti-p53 antibody was applied and showed the presence of p53 protein in the cytoplasm but not in the nucleus. Single strand conformation polymorphism analysis of the p53 gene showed one normal and one additional DNA band. Cloning and sequencing of PCR-amplified DNA showed an AGA (arginine) to ACA (threonine) heterozygous point mutation at codon 280. Transfection of the p53 DNA binding sequence and chloramphenicol acetyltransferase assay revealed loss of transcriptional activation function of endogenous p53 protein. Co-localization of the endogenous and the transfected exogenous p53 protein by polyclonal antibodies to anti-p53 protein revealed strong exogenous p53 staining in the transfected nuclei and weak staining of endogenous p53 protein in the cytoplasm. We concluded that (a) a heterozygous point mutation at codon 280 was identified in the NPC-TW 06 cell line; (b) the point mutation may cause the stagnation of mutant p53 protein in the cytoplasm, and loss of its transcriptional activation function; (c) endogenous and exogenous p53 protein can be co-localized at the same time in the transfected cells; and (d) 280 mutant p53 protein in NPC cells does not cause a decrease or increase in sensitivity to chemotherapy.
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PMID:Co-localization of endogenous and exogenous p53 proteins in nasopharyngeal carcinoma cells. 921 25

Recently, a family of novel, serine/threonine protein kinases has been identified. One of these transcriptionally inducible, immediate-early genes encodes serum/glucocorticoid inducible-protein kinase, sgk. By in situ hybridization, we show that sgk expression in the rat ovary is selectively localized to granulosa cells. In culture, FSH or forskolin, activators of the protein kinase A (PKA) pathway, rapidly (2 h) and transiently increased sgk mRNA levels in undifferentiated granulosa cells. Sgk mRNA exhibited a biphasic expression pattern, with maximal levels observed at 48 h of FSH/forskolin as granulosa cells differentiate to the preovulatory phenotype. Deletion analyses using sgk promoter-reporter constructs (-4.0 kb to -35 bp) identified a region between -63 and -43 bp that mediated FSH and forskolin-responsive transcription in undifferentiated and differentiated granulosa cells. This G/C-rich region 1) conferred both basal and inducible transcription to the minimal -35 sgk promoter chloramphenicol acetyltransferase reporter construct, 2) specifically bound Sp1 and Sp3 present in granulosa cell extracts, and 3) bound recombinant Sp1. Mutation of 2 bp in this region not only prevented Sp1 and Sp3 binding, but also abolished the PKA-mediated transactivation observed when using the wild type construct. Sp1 and Sp3 DNA-binding activity and protein levels did not change significantly during sgk induction. Collectively, these data indicate that Sp1/Sp3 transactivation of the sgk promoter likely involves regulated, phosphorylation-dependent interaction with other factors. Thus the novel, biphasic induction of sgk that correlates with granulosa cell progression from proliferation to differentiation appears to involve sequential, coordinated actions of FSH, PKA, and transcription factors, including Sp1 and Sp3.
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PMID:Follicle stimulating hormone-regulated expression of serum/glucocorticoid-inducible kinase in rat ovarian granulosa cells: a functional role for the Sp1 family in promoter activity. 941 98

The crystal structure of the xenobiotic acetyltransferase from Pseudomonas aeruginosa PA103 (PaXAT) has been determined, as well as that of its complex with the substrate chloramphenicol and the cofactor analogue desulfo-coenzyme A. PaXAT is a member of the large hexapeptide acyltransferase family of enzymes that display tandem repeated copies of a six-residue hexapeptide repeat sequence motif encoding a left-handed parallel beta helix (L betaH) structural domain. The xenobiotic acetyltransferase class of hexapeptide acyltransferases is composed of microbial enzymes that utilize acetyl-CoA to acylate a variety of hydroxyl-bearing acceptors. The active site of trimeric PaXAT is a short tunnel into which chloramphenicol and the cofactor analogue desulfo-CoA project from opposite ends. This tunnel is formed by the flat parallel beta sheets of two separate L betaH domains and an extended 39-residue loop. His 79 of the extended loop forms hydrogen bonds from its imidazole NE2 atom to the 3-hydroxyl group of chloramphenicol and from its ND1 group to the peptide oxygen of Thr 86. The interactions of this histidine residue are similar to those found in the structurally unrelated type III chloramphenicol acetyltransferase and suggest that His 79 of PaXAT may be similarly positioned and tautomerically stabilized to serve as a general base catalyst.
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PMID:Structure of the hexapeptide xenobiotic acetyltransferase from Pseudomonas aeruginosa. 957 52

We examined the effects of Escherichia coli ribosomal protein S12 mutations on the efficiency of cell-free protein synthesis. By screening 150 spontaneous streptomycin-resistant isolates from E. coli BL21, we successfully obtained seven mutants of the S12 protein, including two streptomycin-dependent mutants. The mutations occurred at Lys42, Lys87, Pro90 and Gly91 of the 30S ribosomal protein S12. We prepared S30 extracts from mutant cells harvested in the mid-log phase. Their protein synthesis activities were compared by measuring the yields of the active chloramphenicol acetyltransferase. Higher protein production (1.3-fold) than the wild-type was observed with the mutant that replaced Lys42 with Thr (K42T). The K42R, K42N, and K42I strains showed lower activities, while the other mutant strains with Lys87, Pro90 and Pro91 did not show any significant difference from the wild-type. We also assessed the frequency of Leu misincorporation in poly(U)-dependent poly(Phe) synthesis. In this assay system, almost all mutants showed higher accuracy and lower activity than the wild-type. However, K42T offered higher activity, in addition to high accuracy. Furthermore, when 14 mouse cDNA sequences were used as test templates, the protein yields of nine templates in the K42T system were 1.2-2 times higher than that of the wild-type.
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PMID:Effects of Escherichia coli ribosomal protein S12 mutations on cell-free protein synthesis. 1500 91

Mycobacterium tuberculosis profoundly exploits protein phosphorylation events carried out by serine/threonine protein kinases (STPKs) for its survival and pathogenicity. Forkhead-associated domains (FHA), the phosphorylation-responsive modules, have emerged as prominent players in STPK mediated signaling. In this study, we demonstrate the association of the previously uncharacterized FHA domain-containing protein Rv0019c with cognate STPK PknB. The consequent phosphorylation of Rv0019c is shown to be dependent on the conserved residues in the Rv0019c FHA domain and activation loop of PknB. Furthermore, by creating deletion mutants we identify Thr(36) as the primary phosphorylation site in Rv0019c. During purification of Rv0019c from Escherichia coli, the E. coli protein chloramphenicol acetyltransferase (CAT) specifically and reproducibly copurifies with Rv0019c in a FHA domain-dependent manner. On the basis of structural similarity of E. coli CAT with M. tuberculosis PapA5, a protein involved in phthiocerol dimycocerosate biosynthesis, PapA5 is identified as an interaction partner of Rv0019c. The interaction studies on PapA5, purified as an unphosphorylated protein from E. coli, with Rv0019c deletion mutants reveal that the residues N-terminal to the functional FHA domain of Rv0019c are critical for formation of the Rv0019c-PapA5 complex and thus constitute a previously unidentified phosphoindependent binding motif. Finally, PapA5 is shown to be phosphorylated on threonine residue(s) by PknB, whereas serine/threonine phosphatase Mstp completely reverses the phosphorylation. Thus, our data provides initial clues for a possible regulation of PapA5 and hence the phthiocerol dimycocerosate biosynthesis by PknB, either by direct phosphorylation of PapA5 or indirectly through Rv0019c.
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PMID:Forkhead-associated domain-containing protein Rv0019c and polyketide-associated protein PapA5, from substrates of serine/threonine protein kinase PknB to interacting proteins of Mycobacterium tuberculosis. 1982 7

Enhancing the thermostability of thermolabile enzymes extends their practical utility. We previously demonstrated that an error-prone thermophile derived from Geobacillus kaustophilus HTA426 can generate mutant genes encoding enzyme variants that are more thermostable than the parent enzyme. Here, we used this approach, termed as thermoadaptation-directed enzyme evolution, to increase the thermostability of the chloramphenicol acetyltransferase (CAT) of Staphylococcus aureus and successfully generated a CAT variant with an A138T replacement (CAT(A138T)). This variant was heterologously produced, and its enzymatic properties were compared with those of the wild type. We found that CAT(A138T) had substantially higher thermostability than CAT but had comparable activities, showing that the A138T replacement enhanced protein thermostability without affecting the catalytic activity. Because variants CAT(A138S) and CAT(A138V), which were generated via in vitro site-directed mutagenesis, were more thermostable than CAT, the thermostability enhancement resulting from the A138T replacement can be attributed to both the presence of a hydroxyl group and the bulk of the threonine side chain. CAT(A138T) conferred chloramphenicol resistance to G. kaustophilus cells at high temperature more efficiently than CAT. Therefore, the gene encoding CAT(A138T) may be useful as a genetic marker in Geobacillus spp. Notably, CAT(A138T) generation was achieved only by implementing improved procedures (plasmid-based mutations on solid media); previous procedures (chromosome-based mutations in liquid media) were unsuccessful. This result suggests that this improved procedure is crucial for successful thermoadaptation-directed evolution in certain cases and increases the opportunities for generating thermostable enzymes.
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PMID:Thermoadaptation-directed evolution of chloramphenicol acetyltransferase in an error-prone thermophile using improved procedures. 2578 28


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