Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The segment of the vaccinia DNA topoisomerase from residues 143 to 167 (VGLLTLKNKHIEISPDEIVIKFVGK) is conserved in other members of the eukaryotic type I topoisomerase family. In order to gauge the function of this region, we performed a mutational analysis in which 23 of 25 positions were substituted by alanine. Several non-alanine mutations were also studied. Purified wild-type and mutant proteins were compared with respect to their activities in relaxing supercoiled DNA and in single-turnover strand cleavage. Lys167, an invariant residue, was judged essential for catalysis, insofar as alanine replacement resulted in a 100-fold decrement in specific activity. Alanine substitutions for invariant residues Gly144 and Gly166 were well-tolerated, but a G144R mutation inactivated the enzyme and G166R reduced activity by two orders of magnitude. More modest effects of other mutations were demonstrated by kinetic analysis of the single-turnover DNA cleavage and religation reactions and by studies of covalent adduct formation under equilibrium conditions. Mutations G144A and T147A elicited a shift in the cleavage-religation equilibrium toward the non-covalently bound state; this was caused by slowing of the forward cleavage reaction. Mutations F164A, G166A, G166R, K167A, and K167R produced opposite effects on reaction equilibrium, resulting in higher levels of covalent complex formation. We suggest that invariant residues F164, G166, and K167, constitute part of the active site of the enzyme.
J Mol Biol 1996 Oct 25
PMID:Mutations within a conserved region of vaccinia topoisomerase affect the DNA cleavage-religation equilibrium. 891

The interface between the VL and VH domains of antibodies is highly conserved. To investigate the influence of conserved interface residues on Fab function, 13 interface residues were subjected to codon-based combinatorial alanine scanning mutagenesis in Fab 57P, specific for peptide 134 to 151 of the coat protein of tobacco mosaic virus. The 13 single mutants were analysed by Western blot to determine the effect of interface modifications on Fab expression. The kinetic rate constants of peptide-Fab mutant interactions were measured using the biosensor technology. Alanine replacements did not prevent assembly of the mutated Fabs and led to a modification of their binding properties in every case. Twelve of the 13 target residues correspond to homologous positions in the VL and VH domains, which have similar folds. Mutation at homologous positions mostly had different effects on antigen binding affinity. The replacement of bulky side-chains had the most drastic effect on binding. When smaller side-chains were replaced by alanine, the binding properties of Fab mutants differed slightly (by less than a factor of two), but significantly from that of Fab 57P. Modification of some of these residues, which are located 9 to 12 A away from the base of CDR loops, is unlikely to alter loop conformation. They may affect antigen binding indirectly by influencing the relative position of the VL and VH domains. Our results demonstrate that residues situated at the VL-VH interface and which are remote from the paratope are able to influence the antigen binding properties of antibodies.
J Mol Biol 1996 Nov 22
PMID:Functional mapping of conserved residues located at the VL and VH domain interface of a Fab. 895 Feb 62

The UhpA protein is required for expression of the sugar phosphate transporter UhpT in Escherichia coli and is regulated by phosphate transfer from the transmembrane UhpBC sensor kinase complex. UhpA action requires the sensor kinase complex and the site of phosphorylation, Asp-54, under normal conditions, but not when UhpA is overexpressed. Directed mutagenesis of the uhpA gene allowed examination of the role of several residues of UhpA in response to phosphorylation and in transcription activation. Residues Asp-9, Asp-54, and Lys-101 are highly conserved and required for function in other response regulators. Changes at any of these residues in UhpA resulted in complete loss of phosphorylation-dependent activity, but did not affect the high-level, constitutive, UhpBC-independent expression when the UhpA variants were overexpressed. Thus, these residues are important for the response to the phosphorylation pathway but not for transcription activation. Eight independent uhpA mutants selected for activity in the absence of UhpBC function carried the F17-->V or H170-->Y substitutions. Other substitutions for Phe-17 conferred various phenotypes, ranging from inducible to high-level constitutive behaviour. Residues in helix-1 flanking Phe-17 were converted to Ala or other residues. Alanine substitutions at Val-13, Arg-14, and Leu-20 resulted in complete loss of phosphorylation-dependent activation. Change of Gly-16 to Ala had no effect, but changes to other residues resulted in loss of function. Alanine substitutions at Phe-17 and at Gln-19 resulted in high-level constitutive expression, and changes at Ala-18 and Leu-21 had only modest effects. Most interesting was the L20-->A substitution, which conferred low uhpT expression when overexpressed and interfered with action of the wild-type chromosomal allele. The combination of the L20-->A change with changes at Phe-17, Asp-54 and His-170 indicated that the trans-dominant action of L20-->A occurred at several steps. The observations that UhpA can activate uhpT transcription in its unphosphorylated state are consistent with its occupancy of low-affinity binding sites necessary for promoter function. We propose that the effect of phosphorylation of UhpA is to enhance its oligomerization on the DNA surface to extend to the low-affinity sites, and that helix-1 participates in the process of oligomer formation.
Mol Microbiol 1997 Jun
PMID:Involvement of the amino-terminal phosphorylation module of UhpA in activation of uhpT transcription in Escherichia coli. 922 10

We conducted a mutational analysis of residues potentially involved in the adenine nucleotide binding pocket of the human P2Y1 receptor. Mutated receptors were expressed in COS-7 cells with an epitope tag that permitted confirmation of expression in the plasma membrane, and agonist-promoted inositol phosphate accumulation was assessed as a measure of receptor activity. Residues in transmembrane helical domains (TMs) 3, 5, 6, and 7 predicted by molecular modeling to be involved in ligand recognition were replaced with alanine and, in some cases, by other amino acids. The potent P2Y1 receptor agonist 2-methylthio-ATP (2-MeSATP) had no activity in cells expressing the R128A, R310A, and S314A mutant receptors, and a markedly reduced potency of 2-MeSATP was observed with the K280A and Q307A mutants. These results suggest that residues on the exofacial side of TM3 and TM7 are critical determinants of the ATP binding pocket. In contrast, there was no change in the potency or maximal effect of 2-MeSATP with the S317A mutant receptor. Alanine replacement of F131, H132, Y136, F226, or H277 resulted in mutant receptors that exhibited a 7-18-fold reduction in potency compared with that observed with the wild-type receptor. These residues thus seem to subserve a less important modulatory role in ligand binding to the P2Y1 receptor. Because changes in the potency of 2-methylthio-ADP and 2-(hexylthio)-AMP paralleled the changes in potency of 2-MeSATP at these mutant receptors, the beta- and gamma-phosphates of the adenine nucleotides seem to be less important than the alpha-phosphate in ligand/P2Y1 receptor interactions. However, T221A and T222A mutant receptors exhibited much larger reductions in triphosphate (89- and 33-fold versus wild-type receptors, respectively) than in diphosphate or monophosphate potency. This result may be indicative of a greater role of these TM5 residues in gamma-phosphate recognition. Taken together, the results suggest that the adenosine and alpha-phosphate moieties of ATP bind to critical residues in TM3 and TM7 on the exofacial side of the human P2Y1 receptor.
Mol Pharmacol 1997 Sep
PMID:A mutational analysis of residues essential for ligand recognition at the human P2Y1 receptor. 928 13

Different mechanisms of transcriptional activation may be required for distinct classes of promoters and cellular conditions. The Epstein-Barr virus (EBV)-encoded transcriptional activator Zta recruits the general transcription factors IID (TFIID) and IIA (TFIIA) to promoter DNA and induces a TATA box-binding protein (TBP)-associated factor-dependent footprint downstream of the transcriptional initiation site. In this study, we investigated the functional significance of TFIID-TFIIA (D-A complex) recruitment by Zta. Alanine substitution mutations in the Zta activation domain which eliminate the ability of Zta to stimulate the D-A complex were examined. These Zta mutants were defective in the ability to activate transcription from an EBV-derived promoter (BHLF1) but activated a highly responsive synthetic promoter (Z7E4T). Both the number of activator binding sites and the core promoter region contribute to the requirement for D-A complex recruitment. These functionally distinct core promoters had significant differences in affinity for TBP and TFIID binding. The D-A complex-recruiting activity of Zta was found to be important for promoter selection in the presence of a competitor template. Conditions which limit TFIID binding to the TATA element or compromise the ability of TFIIA to bind TBP required activator stimulation of the D-A complex. These results indicate that D-A complex recruitment is one of at least two activation pathways utilized by Zta and is the essential pathway for a subset of promoters and conditions which limit TFIID binding to the TATA element.
Mol Cell Biol 1997 Nov
PMID:Requirement for transcription factor IIA (TFIIA)-TFIID recruitment by an activator depends on promoter structure and template competition. 934 26

Bacteriophage P2 late transcription requires the product of the P2 ogr gene. Ogr-dependent transcription from P2 late promoters is blocked by certain point mutations affecting the alpha subunits of the host RNA polymerase. An alanine scan spanning the putative activation target in the alpha C-terminal domain (alphaCTD) was carried out to identify individual residues essential for Ogr-dependent transcription from P2 late promoters. In addition, the effects of alanine substitutions in the regions of the alphaCTD previously reported to affect CAP-dependent activation of the lac promoter and UP-element DNA binding were examined. Residues E286, V287, L289 and L290 in helix 3, and residue L300 at the beginning of helix 4, define a surface-exposed patch on the alphaCTD important for Ogr-dependent activation. These residues, adjacent to the recently identified DNA-binding determinants, constitute a newly identified activation surface for protein:protein contact. Alanine substitutions at some of the residues that affect UP-element DNA binding also impaired activation. This suggests that upstream DNA-alpha contacts, in addition to alpha-Ogr contacts, may be important in P2 late transcription. Other residues implicated in the interaction of alpha with CAP are not required for activation by Ogr, consistent with previous genetic evidence suggesting that these activators contact different sites on the alphaCTD.
J Mol Biol 1997 Nov 21
PMID:Activation of P2 late transcription by P2 Ogr protein requires a discrete contact site on the C terminus of the alpha subunit of Escherichia coli RNA polymerase. 939 9

The Gcn4p activation domain contains seven clusters of hydrophobic residues that make additive contributions to transcriptional activation in vivo. We observed efficient binding of a glutathione S-transferase (GST)-Gcn4p fusion protein to components of three different coactivator complexes in Saccharomyces cerevisiae cell extracts, including subunits of transcription factor IID (TFIID) (yeast TAFII20 [yTAFII20], yTAFII60, and yTAFII90), the holoenzyme mediator (Srb2p, Srb4p, and Srb7p), and the Adap-Gcn5p complex (Ada2p and Ada3p). The binding to these coactivator subunits was completely dependent on the hydrophobic clusters in the Gcn4p activation domain. Alanine substitutions in single clusters led to moderate reductions in binding, double-cluster substitutions generally led to greater reductions in binding than the corresponding single-cluster mutations, and mutations in four or more clusters reduced binding to all of the coactivator proteins to background levels. The additive effects of these mutations on binding of coactivator proteins correlated with their cumulative effects on transcriptional activation by Gcn4p in vivo, particularly with Ada3p, suggesting that recruitment of these coactivator complexes to the promoter is a cardinal function of the Gcn4p activation domain. As judged by immunoprecipitation analysis, components of the mediator were not associated with constituents of TFIID and Adap-Gcn5p in the extracts, implying that GST-Gcn4p interacted with the mediator independently of these other coactivators. Unexpectedly, a proportion of Ada2p coimmunoprecipitated with yTAFII90, and the yTAFII20, -60, and -90 proteins were coimmunoprecipitated with Ada3p, revealing a stable interaction between components of TFIID and the Adap-Gcn5p complex. Because GST-Gcn4p did not bind specifically to highly purified TFIID, Gcn4p may interact with TFIID via the Adap-Gcn5p complex or some other adapter proteins. The ability of Gcn4p to interact with several distinct coactivator complexes that are physically and genetically linked to TATA box-binding protein can provide an explanation for the observation that yTAFII proteins are dispensable for activation by Gcn4p in vivo.
Mol Cell Biol 1998 Mar
PMID:The Gcn4p activation domain interacts specifically in vitro with RNA polymerase II holoenzyme, TFIID, and the Adap-Gcn5p coactivator complex. 948 88

We recently identified a cellular protein named E6BP or ERC-55 that binds cancer-related papillomavirus E6 proteins (Chen, J. J., Reid, C. E., Band, V., and Androphy, E. J. (1995) Science 269, 529-531). By construction of a series of deletion mutants, the region of E6BP that is necessary and sufficient for complex formation with human papillomavirus type 16 E6 has been mapped to a 25-amino acid domain. The corresponding peptide was synthesized and found by nuclear magnetic resonance spectroscopy to bind calcium and fold into a classical helix-loop-helix EF-hand conformation. Additional deletion mutagenesis showed that 13 amino acids that form the second alpha helix mediated E6 association. Alanine replacement mutagenesis indicated that amino acids of this helix were most important for E6 binding. Alignment of this alpha helical E6 binding peptide with the 18-amino acid E6 binding region of E6AP (Huibregtse, J. M., Scheffner, M., and Howley, P. M. (1993) Mol. Cell. Biol. 13, 4918-4927) and the first LD repeat of another E6-binding protein, paxillin (Tong, X., and Howley, P. M. (1997) J. Biol. Chem. 272, 33373-33376), revealed substantial similarities among these E6 binding domains. The extent of homology and the mutational data define the peptide as an E6 binding motif.
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PMID:Identification of an alpha helical motif sufficient for association with papillomavirus E6. 959 89

To improve our understanding of structure-function relationships for neurotransmitter transporters, we performed site-directed mutagenesis of the rat dopamine transporter (DAT) and assessed the functions of the mutants in transiently-expressing COS cells. Tyrosine-533 of rat DAT lies in the 11th transmembrane region, where the corresponding amino acid of human DAT is phenylalanine. Alanine substitution of tyrosine-533 (Y533A) conferred an increased affinity for 1-methyl-4-phenylpyridinium (MPP+). Phenylalanine substitution of tyrosine-533 (Y533F) increased the velocity of MPP+ uptake but decreased DAT's affinity for MPP+. Cocaine's potency in inhibiting dopamine uptake was unchanged with Y533A, but increased with Y533F. Differences in the uptake kinetics and inhibitory potency of cocaine between rat and human DATs were similar to the differences observed between the wild-type and Y533F mutants DATs. Tyrosine-533 may be important for the DAT function and for species differences in transporter functions, including differential sensitivities to cocaine and 1-methyl-1,2,3,6-tetrahydropyridine (MPTP) in humans and rats.
Brain Res Mol Brain Res 1998 May
PMID:Tyrosine-533 of rat dopamine transporter: involvement in interactions with 1-methyl-4-phenylpyridinium and cocaine. 960 72

GEF1 encodes the single CLC putative chloride channel in yeast. Its disruption leads to a defect in iron metabolism (Greene, J. R., Brown, N. H., DiDomenico, B. J., Kaplan, J., and Eide, D. (1993) Mol. Gen. Genet. 241, 542-553). Since disruption of GEF2, a subunit of the vacuolar H+-ATPase, leads to a similar phenotype, it was previously suggested that the chloride conductance provided by Gef1p is necessary for vacuolar acidification. We now show that gef1 cells indeed grow less well at less acidic pH. However, no defect in vacuolar acidification is apparent from quinacrine staining, and Gef1p co-localizes with Mnt1p in the medial Golgi. Thus, Gef1p may be important in determining Golgi pH. Systematic alanine scanning of the amino and the carboxyl terminus revealed several regions essential for Gef1p localization and function. One sequence (FVTID) in the amino terminus conforms to a class of sorting signals containing aromatic amino acids. This was further supported by point mutations. Alanine scanning of the carboxyl terminus identified a stretch of roughly 25 amino acids which coincides with the second CBS domain, a conserved protein motif recently identified. Mutations in the first CBS domain also destroyed proper function and localization. The second CBS domain can be transplanted to the amino terminus without loss of function, but could not be replaced by the corresponding domain of the homologous mammalian channel ClC-2.
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PMID:Golgi localization and functionally important domains in the NH2 and COOH terminus of the yeast CLC putative chloride channel Gef1p. 961 22


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