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6-Pyruvoyltetrahydropterin synthase (PTPS) catalyzes the second step of tetrahydrobiopterin (BH4) synthesis. We previously identified PTPS orthologs (bPTPS-Is) in bacteria which do not produce BH4. In this study we disrupted the gene encoding bPTPS-I in Synechococcus sp. PCC 7942, which produces BH4-glucoside. The mutant was normal in BH4-glucoside production, demonstrating that bPTPS-I does not participate in BH4 synthesis in vivo and bringing us a new PTPS ortholog (bPTPS-II) of a bimodular polypeptide. The recombinant Synechococcus bPTPS-II was assayed in vitro to show PTPS activity higher than human enzyme. Further computational analysis revealed the presence of mono and bimodular bPTPS-II orthologs mostly in green sulfur bacteria and cyanobacteria, respectively, which are well known for BH4-glycoside production. In summary we found new bacterial PTPS orthologs, having either a single or dual domain structure and being responsible for BH4 synthesis in vivo, thereby disclosing all the bacterial PTPS homologs. 相似文献
33.
Hye-Lim KimMi-Bee Park Yumin KimYun Gyeong Yang Soo-Woong LeeNingning Zhuang Kon Ho Lee Young Shik Park 《FEBS letters》2012,586(20):3596-3600
We have studied the regulatory function of Dictyostelium discoideum Ax2 phenylalanine hydroxylase (dicPAH) via characterization of domain structures. Including the full-length protein, partial proteins truncated in regulatory, tetramerization, or both, were prepared from Escherichia coli as his-tag proteins and examined for oligomeric status and catalytic parameters for phenylalanine. The proteins were also expressed extrachromosomally in the dicPAH knockout strain to examine their in vivo compatibility. The results suggest that phenylalanine activates dicPAH, which is functional in vivo as a tetramer, although cooperativity was not observed. In addition, the results of kinetic study suggest that the regulatory domain of dicPAH may play a role different from that of the domain in mammalian PAH.
Structured summary of protein interactions
dicPAH and dicPAHbind by molecular sieving (View Interaction: 1, 2, 3, 4) 相似文献34.
Hoepfner D McNamara CW Lim CS Studer C Riedl R Aust T McCormack SL Plouffe DM Meister S Schuierer S Plikat U Hartmann N Staedtler F Cotesta S Schmitt EK Petersen F Supek F Glynne RJ Tallarico JA Porter JA Fishman MC Bodenreider C Diagana TT Movva NR Winzeler EA 《Cell host & microbe》2012,11(6):654-663
Highlights? The fungal secondary metabolite Cladosporin inhibits liver- and blood-stage malaria parasites ? Cladosporin specifically targets lysyl-tRNA synthetase (Krs1) ? Cladosporin is >100-fold more potent against parasite Krs1 relative to the human enzyme ? Two amino acids in the Krs1 ATP-binding pocket confer species-selective inhibition 相似文献
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Suzuki K Yamamoto K Kariya Y Maeda H Ishimaru T Miyaura S Fujii M Yusa A Joo EJ Kimata K Kannagi R Kim YS Kyogashima M 《Glycoconjugate journal》2008,25(8):703-712
Five monoclonal antibodies AS17, 22, 25, 38 and 48, a single monoclonal antibody ACH55, and three monoclonal antibodies NAH33,
43, 46, that recognize acharan sulfate (IdoA2S-GlcNAc)n, acharan (IdoA-GlcNAc)n and N-acetyl-heparosan (GlcA-GlcNAc)n, respectively, were generated by immunization of mice with keyhole limpet hemocyanin-conjugated
polysaccharides. Specificity tests were performed using a panel of biotinylated GAGs that included chemically modified heparins.
Each antibody bound avidly to the immunized polysaccharide, but did not bind to chondroitin sulfates, keratan sulfate, chondroitin
nor hyaluronic acid. AS antibodies did not bind to heparan sulfate or heparin, but bound to 6-O-desulfated, N-desulfated and re-N-acetylated heparin to varying degrees. ACH55 bound to tri-desulfated and re-N-acetylated heparin but hardly bound to other modified heparins. NAH antibodies did not bind to heparin and modified heparins
but bound to heparan sulfate to varying degrees. NAH43 and NAH46 also bound to partially N-de-acetylated N-acetyl-heparosan. Immunohistochemical analysis in rat cerebella was performed with the antibodies. While NAH46 stained endothelia,
where heparan sulfate is typically present, neither ACH55 nor AS25 stained endothelia. On the contrary ACH55 and AS25 stained
the molecular layer of the rat cerebella. Furthermore, ACH55 specifically stained Purkinje cells. These results suggest that
there is unordinary expression of IdoA2S-GlcNAc and IdoA-GlcNAc in specific parts of the nervous system.
Suzuki and Yamamoto contributed equally to this study. 相似文献
37.
Supangat S Park SO Seo KH Lee SY Park YS Lee KH 《Acta biochimica et biophysica Sinica》2008,40(6):513-518
Sepiapterin reductase from Chlorobium tepidum (cSR) catalyzes the synthesis of a distinct tetrahydrobiopterin (BH4), L -threo-BH4, different from the mammalian enzyme product. The 3-D crystal structure of cSR has revealed that the product configuration is determined solely by the substrate binding mode within the well-conserved catalytic triads. In cSR, the sepiapterin is stacked between two aromatic side chains of Phe-99 and Trp-196 and rotated approximately 180° around the active site from the position in mouse sepiapterin reductase. To confirm their roles in substrate binding, we mutated Phe-99 and/or Trp-196 to alanine (F99A, W196A) by site-directed mutagenesis and comparatively examined substrate binding of the purified proteins by kinetics analysis and differential scanning calorimetry. These mutants had higher K m values than the wild type. Remarkably, the W196A mutation resulted in a higher K m increase compared with the F99A mutation. Consistent with the results, the melting temperature ( T m ) in the presence of sepiapterin was lower in the mutant proteins and the worst was W196A. These findings indicate that the two residues are indispensable for substrate binding in cSR, and Trp-196 is more important than Phe-99 for different stereoisomer production. 相似文献
38.
Jia Jeong Toshihiko Toida Yuki Muneta Ichiro Kosiishi Toshio Imanari Robert J. Linhardt Hyung Seok Choi Song Ji Wu Yeong Shik Kim 《Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology》2001,130(4)
Acharan sulfate is a glycosaminoglycan (GAG), having the structure →4)-2-acetamido-2-deoxy-α-
-glucopyranose(1→4)-2-sulfo-α-
-idopyranosyluronic acid (1→, isolated from the body of the giant African snail Achatina fulica. This GAG represents 3–5% of the dry weight of this snail's soft body tissues. Frozen sections and polyester wax sections of the snail's body were stained by Alcian blue-periodic acid-Schiff's reagent (PAS) to localize acharan sulfate. Alcian blue staining indicated that GAG was mainly secreted into the outer surface of the body from internal granules. A highly mucous material was collected and treated and the acharan sulfate was recovered by ethanol and cetyl pyridinium chloride precipitation. Crude acharan sulfate was purified by DEAE-Sephacel ion-exchange chromatography. Depolymerization of intact mucus and purified acharan sulfate fractions by heparin lyase II (heparitinase I) from Flavobacterium heparinum produced an unsaturated disaccharide as a major product, establishing the repeating unit of acharan sulfate. These results demonstrate that mucus in the granule and secreted to the outside of the body is composed entirely of acharan sulfate. 相似文献
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