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: UMLS:C0162871 (abdominal aortic aneurysm)
8,664 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acetylation is the most frequently occurring chemical modification of the alpha-NH2 group of eukaryotic proteins and is catalyzed by an N alpha-acetyltransferase. Recently, a eukaryotic N alpha-acetyltransferase was purified to homogeneity from Saccharomyces cerevisiae, and its substrate specificity was partially characterized (Lee, F.-J. S., Lin L.-W., and Smith, J. A. (1988) J. Biol. Chem. 263, 14948-14955). This article describes the cloning from a yeast lambda gt11 cDNA library and sequencing of a full length cDNA encoding yeast N alpha-acetyltransferase. DNA blot hybridizations of genomic and chromosomal DNA reveal that the gene (so-called AAA1, amino-terminal, alpha-amino, acetyltransferase) is present as a single copy located on chromosome IV. The use of this cDNA will allow the molecular details of the role of N alpha-acetylation in the sorting and degradation of eukaryotic proteins to be determined.
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PMID:Molecular cloning and sequencing of a cDNA encoding N alpha-acetyltransferase from Saccharomyces cerevisiae. 266 56

Acetylation is the most frequently occurring chemical modification of the alpha-NH2 group of eucaryotic proteins and is catalyzed by N alpha-acetyltransferase. The yeast enzyme is encoded by the AAA1 (amino-terminal alpha-amino acetyltransferase) gene. A null mutation (aaa1-1) created by gene replacement, while not lethal, slows cell growth and results in heterogeneous colony morphology. In comparison with wild-type cells, aaa1-1/aaa1-1 diploids cannot enter stationary phase, are sporulation defective, and are sensitive to heat shock. In addition, the aaa1-1 mutation specifically reduces mating functions of MATa cells. These results indicate that N alpha acetylation plays a crucial role in yeast cell growth and mating.
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PMID:N alpha acetylation is required for normal growth and mating of Saccharomyces cerevisiae. 268 Nov 43

Anti-albumin antibodies (AAA) were isolated from sera of hepatic patients and normal individuals by affinity chromatography on insolubilized glutaraldehyde-treated human albumin. Anti-albumin antibodies were found to belong to IgG and IgM classes in both normal and hepatic patients. The normal level of AAA increased in pathologic conditions, the increase recorded for IgM AAA being higher than that for IgG AAA. The dissociation rate of AAA from the radiolabeled antigen in normal and hepatic sera showed that the affinity of AAA was higher in normal sera than in sera of patients with chronic liver disease and acute viral hepatitis. Anti-albumin antibodies were fractionated into two populations (AAA1 and AAA2) by a two-step chromatographic procedure. AAA1 and AAA2 were found different as regards their affinity for the antigen; specifically, AAA1 affinity was higher than that of AAA2. The other difference between AAA1 and AAA2 might stand in their specificity for the haptenic and structural determinants present in the glutaraldehyde-treated albumin.
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PMID:Immunochemical characterization of anti-albumin antibodies in liver diseases. 687 43

A 36,688 bp fragment from the left arm of chromosome IV of saccharomyces cerevisiae was sequenced. Sequence analysis identified 20 complete non-overlapping open reading frames (ORFs) of at least 100 amino acids. Nine of these correspond to previously identified and sequenced genes: SIT4/PH1, FAD1, NAM1/MTF2, RNA11, SIR2/MAR1, NAT1/AAA1, PRP9, ACT2 and MPS1/RPK1. Three ORFs show homology to previously sequenced genes. One ORF exhibits a hypothetical yabO/yceC/YfiI family signature and one has the ATP-dependent helicase signature of the DEAD and DEAH box families. Six ORFs show no appreciable homology to any proteins in the database. One of these is identical to yeast expressed sequence tags and therefore corresponds to and expressed gene. In addition, two partial ORFs and 11 ORFs that are totally internal and are not likely to be functional were detected.
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PMID:The sequence of a 36.7 kb segment on the left arm of chromosome IV from Saccharomyces cerevisiae reveals 20 non-overlapping open reading frames (ORFs) including SIT4, FAD1, NAM1, RNA11, SIR2, NAT1, PRP9, ACT2 and MPS1 and 11 new ORFs. 904 88

The motor protein cytoplasmic dynein is responsible for most of the minus-end-directed microtubule traffic within cells. Dynein contains four evolutionarily conserved AAA (ATPase associated with various cellular activities) domains that are thought to bind nucleotide; the role of nucleotide binding and hydrolysis in each of these four AAA domains has constituted an important and unresolved question in understanding dynein's mechanism. Using Saccharomyces cerevisiae cytoplasmic dynein as a model system, we mutagenized residues involved in nucleotide binding or hydrolysis in the four AAA domains and examined the ability of the mutant dyneins to mediate nuclear segregation in vivo and to bind microtubules in vitro. Our analysis shows that an AAA1 hydrolysis mutant blocks dynein function, whereas a triple AAA2/3/4 hydrolysis mutant does not, suggesting that nucleotide binding is required at only one site. We also show that nucleotide binding at AAA3, but not hydrolysis, is essential for motor activity in vivo and ATP-induced dissociation of dynein from microtubules, suggesting that this domain acts as a critical allosteric site. In contrast, mutations in AAA2 cause subtle defects in dynein function, whereas mutation in AAA4 produce no obvious defects. These results show that the four conserved dynein AAA domains have distinct functions in dynein's mechanochemical cycle.
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PMID:Molecular dissection of the roles of nucleotide binding and hydrolysis in dynein's AAA domains in Saccharomyces cerevisiae. 1569 49

Dyneins are highly complex molecular motors that transport their attached cargo towards the minus end of microtubules. These enzymes are required for many essential motile activities within the cytoplasm and also power eukaryotic cilia and flagella. Each dynein contains one or more heavy chain motor units that consist of an N-terminal stem domain that is involved in cargo attachment, and six AAA+ domains (AAA1-6) plus a C-terminal globular segment that are arranged in a heptameric ring. At least one AAA+ domain (AAA1) is capable of ATP binding and hydrolysis, and the available data suggest that one or more additional domains also may bind nucleotide. The ATP-sensitive microtubule binding site is located at the tip of a 10nm coiled coil stalk that emanates from between AAA4 and AAA5. The function of this motor both in the cytoplasm and the flagellum must be tightly regulated in order to result in useful work. Consequently, dyneins also contain a series of additional components that serve to define the cargo-binding properties of the enzyme and which act as sensors to transmit regulatory inputs to the motor units. Here we describe the two basic dynein designs and detail the various regulatory systems that impinge on this motor within the eukaryotic flagellum.
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PMID:Design and regulation of the AAA+ microtubule motor dynein. 1503 37

Cytoplasmic dynein is a minus-end-directed microtubule motor involved in numerous essential processes within eukaryotic cells, such as nuclear segregation and trafficking of intracellular particles. The motor domain of the dynein heavy chain comprises six tandemly linked AAA (ATPase associated with diverse cellular activities) modules (AAA1-AAA6). The first four modules include nucleotide-binding sites (Walker A or P-loop motifs), and each of the four sites appears to bind ATP. However, the role and the function of each binding site are unknown. Especially, the question of which P-loops are ATP-hydrolyzing sites has not been answered, because it is difficult to measure the ATPase activity of each P-loop. Here, we purified several truncated Saccharomyces cerevisiae cytoplasmic dynein fragments and their mutants expressed in Escherichia coli and then measured their ATPase activities. Our results suggest that there are multiple ATP-binding sites that have abilities to hydrolyze ATP in cytoplasmic dynein. Furthermore, a single AAA module is insufficient for ATP hydrolysis, and the adjacent module facing the ATP-binding site is necessary for ATP-hydrolyzing activity.
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PMID:Multiple ATP-hydrolyzing sites that potentially function in cytoplasmic dynein. 1532 7

The hypersensitive response (HR) is one of the most critical defense systems in higher plants. In order to understand its molecular basis, we have screened tobacco genes that are transcriptionally activated during the early stage of the HR by the differential display method. Among six genes initially identified, one was found encoding a 57 kDa polypeptide with 497 amino acids not showing significant similarity to any reported proteins except for the AAA domain (ATPase associated with various cellular activities) spanning over 230 amino acids. The bacterially expressed protein exhibited ATP hydrolysis activity, and a green fluorescent protein-fusion protein localized in the cytoplasm of onion epidermis cells. The protein was subsequently designated as NtAAA1 (Nicotiana tabacum AAA1). NtAAA1 transcripts were induced 6 h after HR onset not only by TMV but also by incompatible Psuedomonas syringae, indicating that NtAAA1 is under the control of the N-gene with a common role in pathogen responses. Expression of NtAAA1 was induced by jasmonic acid and ethylene, but not by salicylic acid (SA). It also occurred at a high level in SA-deficient tobacco plants upon TMV infection. When NtAAA1 was silenced by the RNAi method, accumulation of transcripts for PR-1a significantly increased during the HR. Treatments with SA induced higher expression of PR-1a and acidic PR-2 in RNAi transgenic plants than in wild-type counterparts. These results suggest that NtAAA1 mitigates the SA signaling pathway, and therefore that NtAAA1 modulates the pathogen response of the host plants by adjusting the HR to an appropriate level.
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PMID:A hypersensitive response-induced ATPase associated with various cellular activities (AAA) protein from tobacco plants. 1582 94

A property of susceptibility genes for complex diseases is their reduced penetrance, due to the influences of other genes, the environment, or stochastic events. With this in mind, it is possible to devise population genetic strategies and statistical methods to allow their positional cloning. The identification of the relevant effector gene in an implicated locus may provide further challenges and require functional studies. The challenges of positional cloning are demonstrated by two examples: the cloning of GPRA and AAA1 on chromosome 7p14 at a susceptibility locus for asthma and atopy, and the study of HCR on chromosome 6p21 at PSORS1, the major susceptibility locus for psoriasis. To implicate GPRA in asthma and atopy, we studied its isoform-specific expression in bronchial biopsies and other sites for allergic reactions. We also studied its expression in a mouse model of ovalbumin-induced hypersensitivity. To study the role of HCR in psoriasis, we engineered transgenic mice with either a HCR non-risk allele or the HCR *WWCC risk allele controlled by the cytokeratin 14 promoter. The results suggested that while the overexpression of HCR in mouse skin is insufficient to induce a psoriasiform phenotype, it appears to induce allele-specific gene expression changes similar to those in psoriatic skin.
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PMID:Mapping genes for asthma and psoriasis. 1599

The dynein motor domain consists of a ring of six AAA domains with a protruding microtubule-binding stalk and a C-terminal domain of unknown function. To understand how conformational information is communicated within this complex structure, we produced a series of recombinant and proteolytic rat motor domain fragments, which we analyzed enzymatically. A recombinant 210-kDa half-motor domain fragment surprisingly exhibited a 6-fold higher steady state ATPase activity than a 380-kDa complete motor domain fragment. The increased ATPase activity was associated with a complete loss of sensitivity to inhibition by vanadate and an approximately 100-fold increase in the rate of ADP release. The time course of product release was discovered to be biphasic, and each phase was stimulated approximately 1000-fold by microtubule binding to the 380-kDa motor domain. Both the half-motor and full motor domain fragments were remarkably resistant to tryptic proteolysis, exhibiting either two or three major cleavage sites. Cleavage near the C terminus of the 380-kDa motor domain released a 32-kDa fragment and abolished sensitivity to vanadate. Cleavage at this site was insensitive to ATP or 5'-adenylyl-beta,gamma-imidodiphosphate but was blocked by ADP-AlF3 or ADP-vanadate. Based on these data, we proposed a model for long range allosteric control of product release at AAA1 and AAA3 through the microtubule-binding stalk and the C-terminal domain, the latter of which may interact with AAA1 to close the motor domain ring in a cross-bridge cycle-dependent manner.
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PMID:Long range allosteric control of cytoplasmic dynein ATPase activity by the stalk and C-terminal domains. 1603 13


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