Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.2.1.22 (cystathionine beta-synthase)
 965 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cysteine synthase gene (cysK) from Flavobacterium K3-15 was cloned and sequenced. The gene exhibits 30-50% identity to known cysteine synthases on both the DNA and the amino acid levels. The pyridoxal phosphate binding site of the enzyme is part of a conserved motif comprising seven amino acids (SIKDRIA). The lys31 residue of the flavobacterial enzyme is conserved in all known cysteine synthases. The cysK gene from Flavobacterium K3-15 was heterologously expressed and the gene product identified by immunoblotting and determination of the enzyme activity.
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PMID:Isolation of a gene encoding cysteine synthase from Flavobacterium K3-15. 886 84

The biosynthesis of cysteine represents the final step of sulfate assimilation in bacteria and plants. It is catalyzed by the sequential action of serine acetyltransferase (SAT) and O-acetylserine (thiol) lyase (OAS-TL) which form a cysteine synthase (CS) complex in vitro. SAT and OAS-TL from Arabidopsis thaliana have previously been cloned, and now the first evidence is presented for the CS complex and SAT self-interaction in vivo employing the yeast two-hybrid system. Application of this method proved to be an efficient tool for the analysis of protein-protein interactions within a plant metabolic protein complex. Mapping of SAT domain structure revealed two new, independent domains with specific functions in protein-protein interaction. Analysis using truncated proteins proved the C-terminus of SAT to be sufficient for association with OAS-TL and to correlate with the putative transferase activity domain. SAT/SAT interaction was localized in the central region of the protein and occurred also between SAT isoforms. Both protein interaction domains coincided with distinct alpha-helical and beta-sheet clusters and together correlated with the minimal protein structure required for SAT catalysis as shown by functional complementation of an Escherichia coli mutant. The homo- and hetero-oligomerization properties are discussed with respect to the assumed function of the CS complex in metabolic channeling and activation of SAT by interaction with OAS-TL.
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PMID:Cysteine synthesis in plants: protein-protein interactions of serine acetyltransferase from Arabidopsis thaliana. 907 92

The cysB gene of A. nidulans was cloned by complementation of a cysB mutation. This is the first cloned eukaryotic genomic sequence coding for cysteine synthase. The gene contains one 71-bp intron and codes for a protein of 370 amino acids. Its N-terminal region has characteristic features of transit peptides, suggesting mitochondrial localisation of the enzyme. The protein shows homology with bacterial and plant cysteine synthases among which it occupies a remote phylogenetic position and apparently represents a distinct subfamily. Transcription of the cysB gene is not appreciably regulated by the concentration of methionine in the growth medium.
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PMID:Cloning and characterization of the Aspergillus nidulans cysB gene encoding cysteine synthase. 910 43

The filamentous fungi Aspergillus nidulans and Neurospora crassa and the yeast Saccharomyces cerevisiae each possess a global regulatory circuit that controls the expression of permeases and enzymes that function both in the acquisition of sulfur from the environment and in its assimilation. Control of the structural genes that specify an array of enzymes that catalyze reactions of sulfur metabolism occurs at the transcriptional level and involves both positive-acting and negative-acting regulatory factors. Positive trans-acting regulatory proteins that contain a basic region, leucine zipper-DNA binding domain, are found in Neurospora and yeast. Each of these fungi contain a sulfur regulatory protein of the beta-transducin family that acts in a negative fashion to control gene expression. Sulfur regulation in yeast also involves the general DNA binding protein, centromere binding factor I. Sulfate uptake is a highly regulated step and appears to occur in fungi, plants, and mammals via a family of related transporter proteins. Recent developments have provided new insight into the nature and control of the enzymes ATP sulfurylase and APS kinase, which catalyze the early steps of sulfate assimilation, and of the Aspergillus enzyme, cysteine synthase, which produces cysteine from O-acetylserine.
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PMID:Molecular genetics of sulfur assimilation in filamentous fungi and yeast. 934 44

The ability of the facultative photoheterotroph Rhodobacter sphaeroides to tolerate and reduce high levels of tellurite in addition to at least 10 other rare earth metal oxides and oxyanions has considerable potential for detoxification and bioremediation of contaminated environments. We report the identification and characterization of two loci involved in high-level tellurite resistance. The first locus contains four genes, two of which, trgAB, confer increased tellurite resistance when introduced into the related bacterium Paracoccus denitrificans. The trgAB-derived products display no significant homology to known proteins, but both are likely to be membrane-associated proteins. Immediately downstream of trgB, the cysK (cysteine synthase) and orf323 genes were identified. Disruption of the cysK gene resulted in decreased tellurite resistance in R. sphaeroides, confirming earlier observations on the importance of cysteine metabolism for high-level tellurite resistance. The second locus identified is represented by the telA gene, which is separated from trgAB by 115 kb. The telA gene product is 65% similar to the product of the klaB (telA) gene from the tellurite-resistance-encoding kilA operon from plasmid RK2. The genes immediately linked to the R. sphaeroides telA gene have no similarity to other components of the kilA operon. R. sphaeroides telA could not functionally substitute for the plasmid RK2 telA gene, indicating substantial functional divergence between the two gene products. However, inactivation of R. sphaeroides telA resulted in a significant decrease in tellurite resistance compared to the wild-type strain. Both cysK and telA null mutations readily gave rise to suppressors, suggesting that the phenomenon of high-level tellurite resistance in R. sphaeroides is complex and other, as yet uncharacterized, loci may be involved.
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PMID:Identification and molecular genetic analysis of multiple loci contributing to high-level tellurite resistance in Rhodobacter sphaeroides 2.4.1. 940 90

A novel type of cysteine synthase (CSase, EC 4.2.99.8) isozyme, designated as CSase 1', was purified to homogeneity from hydrated spinach seeds. The enzyme had a molecular weight of 68,000 and consisted of two identical subunits of M(r), 34,000. The apparent K(m) for O-acetyl-L-serine was 8.33 mM and that for sulfide was 0.66 mM. The activity of CSase 1' was maintained when it was treated at 60 degrees C for 1 min. This novel enzyme was similar to CSases 1, 2, and 3 already purified from spinach leaves, in results of double immunodiffusion, molecular weight, subunit composition, K(m) values for O-acetyl-L-serine and sulfide, and heat stability. On the other hand, N-terminal amino acid sequence, effects of immunotitration, pH optimum, and effects of hydroxylamine on purified CSase 1' were different from those of the other CSases. Furthermore, it was found that CSases 2S and 3S isolated from hydrated spinach seeds were identical with the CSases 2 and 3 reported previously. It was also disclosed that CSases 1, 2, and 3 were localized in chloroplasts, cytosol, and mitochondria, respectively.
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PMID:Purification and characterization of a novel cysteine synthase isozyme from spinach hydrated seeds. 957 79

Polyclonal antibodies against cysteine synthase (CSase; EC 4.2.99.8) isozymes 1, 2, and 3 were used for the detection of complexes of these isozymes with serine acetyltransferase (SATase; EC 2.3.1.30). SATase was partially purified and found to complex with these isozymes by western blotting and immunotitration. When the complexes were treated with a high concentration of O-acetyl-L-serine, they did not dissociate. However, some complexes with CSase 1 or 3 dissociated when left for 24 h at 4 degrees C. Results of western blotting on SDS-PAGE showed that CSase 2 complexed with SATase. CSases 1, 2, and 3 all could complex with SATase, but the tightness of the bond differed.
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PMID:Complexes of serine acetyltransferase and isozymes of cysteine synthase in spinach leaves. 964 25

The last steps of cysteine synthesis in plants involve two consecutive enzymes. The first enzyme, serine acetyltransferase, catalyses the acetylation of L-serine in the presence of acetyl-CoA to form O-acetylserine. The second enzyme, O-acetylserine (thiol) lyase, converts O-acetylserine to L-cysteine in the presence of sulfide. We have, in the present work, over-produced in Escherichia coli harboring various type of plasmids, either a plant serine acetyltransferase or this enzyme with a plant O-acetylserine (thiol) lyase. The free recombinant serine acetyltransferase (subunit mass of 34 kDa) exhibited a high propensity to form high-molecular-mass aggregates and was found to be highly unstable in solution. However, these aggregates were prevented in the presence of O-acetylserine (thiol) lyase (subunit mass of 36 kDa). Under these conditions homotetrameric serine acetyltransferase associated with two molecules of homodimeric O-acetylserine (thiol) lyase to form a bienzyme complex (molecular mass approximately 300 kDa) called cysteine synthase containing 4 mol pyridoxal 5'-phosphate/mol complex. O-Acetylserine triggered the dissociation of the bienzyme complex, whereas sulfide counteracted the action of O-acetylserine. Protein-protein interactions within the bienzyme complex strongly modified the kinetic properties of plant serine acetyltransferase: there was a transition from a typical Michaelis-Menten model to a model displaying positive kinetic co-operativity with respect to serine and acetyl-CoA. On the other hand, the formation of the bienzyme complex resulted in a very dramatic decrease in the catalytic efficiency of bound O-acetylserine (thiol) lyase. The latter enzyme behaved as if it were a structural and/or regulatory subunit of serine acetyltransferase. Our results also indicated that bound serine acetyltransferase produces a build-up of O-acetylserine along the reaction path and that the full capacity for cysteine synthesis can only be achieved in the presence of a large excess of free O-acetylserine (thiol) lyase. These findings contradict the widely held belief that such a bienzyme complex is required to channel the metabolite intermediate O-acetylserine.
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PMID:Interactions between serine acetyltransferase and O-acetylserine (thiol) lyase in higher plants--structural and kinetic properties of the free and bound enzymes. 969 24

The enteric protozoan parasite Entamoeba histolytica was shown to possess cysteine synthase (CS) activity. The cDNA and genomic clones that encode two isoforms of the E. histolytica CS were isolated and characterized from a clonal strain of E. histolytica by genetic complementation of the cysteine-auxotrophic Escherichia coli NK3 with an E. histolytica cDNA library. The two types of the E. histolytica CS genes differed from each other by three nucleotides, two of which resulted in amino acid substitution. Deduced amino acid sequences of the E. histolytica CS, with a calculated molecular mass of 36721 Da and an isoelectric point of 6.39, exhibited 38-48% identity with CS of bacterial and plant origins. The absence of the amino-terminal transit peptide in the deduced protein sequences and the presence of the CS protein mainly in the supernatant fraction of the amoebic lysate after cellular fractionation suggested that the identified E. histolytica CS genes encoded cytosolic isoforms. Substrate specificity of the recombinant E. histolytica CS was similar to that of plant CS. Phylogenetic analysis indicates that the amoebic CS, first described in Protozoa, does not belong to any families of the CS superfamily, and represents a new family.
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PMID:Molecular cloning and characterization of the genes encoding two isoforms of cysteine synthase in the enteric protozoan parasite Entamoeba histolytica. 987 85

As a prerequisite for proteome analyses of Corynebacterium glutamicum separation of the cytoplasm and the membrane fraction was optimized and two-dimensional (2-D) gel electrophoresis was established. The resulting 2-D protein maps revealed over 1000 silver-stained protein spots separated by isoelectric point and molecular mass for cytoplasmic proteins and approximately 700 silver-stained spots for proteins of the membrane fraction. Proposing a mean size of 1 kbp per gene the complete C. glutamicum genome of 3 Mbp encodes 3000 different proteins; more than half of these can be located using the maps which are presently available. In this study 10 proteins were identified by N-terminal microsequencing, namely the 35 kDa antigen, antigen 84, ATP synthase subunits alpha, gamma and delta, cysteine synthase, elongation factor G and Ts, enolase, and rotamase. For seven sequences, corresponding proteins could not be identified. Additionally, two proteins were specifically detected by immunoblotting, a corynebacterial porin and the cytoplasmic protein threonine dehydratase. The methods and 2-D maps established in this study will be the basis for comparative studies of protein expression and a detailed proteome analysis of C. glutamicum.
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PMID:Mapping and identification of Corynebacterium glutamicum proteins by two-dimensional gel electrophoresis and microsequencing. 993 18


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