• 제목/요약/키워드: Pyridoxal

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Catalytic and Structural Properties of Pyridoxal Kinase

  • Cho, Jung-Jong;Kim, Se-Kwon;Kim, Young-Tae
    • BMB Reports
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    • 제30권2호
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    • pp.125-131
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    • 1997
  • This work reports studies of the catalytic and structural properties of pyridoxal kinase (ATP: pyridoxal 5' -phosphotransferase, EC. 2.7.1.35), Pyridoxal kinase catalyzes the phosphorylation of vitamin $B_6$ (pyridoxal, pyridoxamine, pyridoxine) using ATP-Zn as a phosphoryl donor. The enzyme purified from brain tissues is made up of two identical subunits of 40 kDa each. Native enzyme was inhibited by a substrate analogue, pyridoxal-oxime. Limited chymotrypsin digestion of pyridoxal kinase yields two fragments of 24 and 16 kDa with concomitant loss of catalytic activity. These fragments were isolated by DEAE ion exchange chromatography and used for binding studies with fluorescent ATP and pyridoxal analogues. The spectroscopic properties of both fluorescent pyridoxal analogue and Anthraniloyl ATP (Ant-ATP) bound to the 24 kDa fragment are indistinguishable from those of both pyridoxal analogue and Ant-ATP bound to the native pyridoxal kinase, respectively. The small 16 kDa fragment, generated by proteolytic cleavage of the kinase, does not bind any of the substrate analogues. Binding characteristics of Ant-ATP were extensively studied by measuring the changes in fluorescence spectra at various conditions. From the results presented herein, it is postulated that the structural domain associated with catalytic activity comprises approximately one-half of the molecular mass of pyridoxal kinase (24 kDa). whereas the remaining portion (16 kDa) of the enzyme contains a regulatory binding domain.

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장기간의 Pyridoxine 부족이 쥐 간의 Mitochondria 및 Cytosolic Fraction 에 있는 Aspartate Aminotransferase 및 Pyridoxal 5'- Phoshate에 미치는 영향 (Effect of Long-Term Pyridoxine Depletion on Asparte Aminotransferase and Pyridoxal 5'-Phosphate of Rat Liver Mitochondrial and Cytosolic Fractions)

  • 임경숙
    • Journal of Nutrition and Health
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    • 제19권4호
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    • pp.246-254
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    • 1986
  • 이유한 Sprague Dawley 종의 암컷 흰쥐를 두군으로 나누어 각각 pyridoxine이 충분한 식이 (22mg/kg diet)와 pyridoxine이 부족한 식이 (1.2mg/kg diet0로 성장시킨후, 적절한 시기에 임신시켰다. 태어난 새끼가 이유할 때 결핍식이군을 둘로 나누어, 한쪽은 pyridoxine이 충분한 식이로 바꾸어준후, 세군의 쥐를 생후 10-주까지 성장시켰다. 각 군의 새끼쥐가 각각 0, 3, 7, 10 주 되었을대, 간의 mitochondria 및 cytosolic fraction 에 있는 Asparate aminotransferase [ EC 2.6.1.1] activity 및 pyridoxal phosphate의 함량을 측정하였다. 결핍군의 간 aspartate aminotransterase activity는 mitochondria 및 cytosolic fraction에서 각각 대조군에 비해 유의적으로 낮았으며 10-4 M pyridoxal phosphate를 첨가한 후 측정한 total enzyme activity 는 거의 대조군과 비슷하였다. 3 주이후 pyridoxine 이 충분한 식이로 바구어준 회복군에서도 대조군에 비해 유의적으로 낮았으나, 결핍군보다는 높았다. 이두 fraction 에서의 pyridoxal phosphate 함량은 결핍군이 대조군보다 현저히 낮았으며, 회복군은 대조군과 비슷하였다. 이로써, 장기간에 걸친 pyridoxine결핍이간의 aspartate aminotransferase activity 및 pyridoxal phosphate에 현저한 영향을 미치며 이유기 이후의 식이보충에 의해서도 enzyme activity는 쉽게 회복되지 않음을 알 수있다.

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Inactivation of Brain GABA transaminase by p$^1$, p$^2$-Bis(5′-pyridoxal) diphosphate

  • Jang, S.H.;Lee, B.R.;J.W. Hong;Park, K.W.;Yoo, B.K.;Cho, S.W.;Park, S.Y.
    • 한국응용약물학회:학술대회논문집
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    • 한국응용약물학회 1995년도 춘계학술대회
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    • pp.74-74
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    • 1995
  • GABA transaminase is inactivated by preincubation with p$^1$, p$^2$-bis(5'-pyridoxal) diphosphate at pH 7.0. The inactivation under pseudo-first order conditions proceeds at a slow rate (K$\_$obs/=0.035 min$\^$-1/). The degree of labeling of the enzyme by p$^1$, p$^2$-bis(5'-pyridoxal) diphosphate was determined by absorption spectroscopy, The blocking of 2 lysyl residues/dimer is needed for inactivation of the transaminase. The time course of the reaction is significantly affected by the substrate ${\alpha}$-ketoglutarate, which afforded complete protection against the loss of the catalytic activity. Whereas cofator pyridoxal phosphate failed to prevent the inactivation of the enzyme. Therefore, it is postulated that binding of ${\alpha}$-ketoglutarate tn lysyl residues is the major factor contributing to stabilization of the catalytic site and bifuctional reagent p$^1$, p$^2$bis(5'-pyridoxal) diphosphate blocks lysyl residues other than those involved in the binding of the cofactor.

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Pyrazinamide와 그 대사산물이 유발하는 고뇨산 혈증에 미치는 Pyridoxal의 영향 (Effect of Pyridoxal on Pyrazinamide - and its metabolite-induced Hyperuricemia)

  • 허근;박종민;신억섭;김석환
    • 약학회지
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    • 제31권3호
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    • pp.149-153
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    • 1987
  • Pyrazinamide, an amide of pyrazinoic acid, is widely used in combination with other drugs for the treatment of tuberculosis. It was attempted to observe the effect of pyridoxal on the pyrazinamide induce hyperuricemia in this study. It was observed that the values of serum transminases were not changed in mice injected pyrazinamide and pyrazinoic acid, respectively (100, 200, and 300mg/kg) compared with control. Blood urate levels were increased in mice treated with these drugs in a dose dependent manner. After pyrazinoic acid was administered intraperitoneally at a dose of 300mg/kg pretreated with 50mg/kg of pyridoxal once daily for 4 days, the blood levels of uric acid and pyrazinoic acid were decreased significantly.

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Comparative Proteomic Analysis for a Putative Pyridoxal Phosphate-Dependent Aminotransferase Required for Virulence in Acidovorax citrulli

  • Lee, Jongchan;Heo, Lynn;Han, Sang-Wook
    • The Plant Pathology Journal
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    • 제37권6호
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    • pp.673-680
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    • 2021
  • Acidovorax citrulli (Ac) is the causative agent of bacterial fruit blotch disease in watermelon. Since resistant cultivars have not yet been developed, the virulence factors/mechanisms of Ac need to be characterized. This study reports the functions of a putative pyridoxal phosphate-dependent aminotransferase (PpdaAc) that transfers amino groups to its substrates and uses pyridoxal phosphate as a coenzyme. It was observed that a ppdaAc knockout mutant had a significantly reduced virulence in watermelon when introduced via germinated-seed inoculation as well as leaf infiltration. Comparative proteomic analysis predicted the cellular mechanisms related to PpdaAc. Apart from causing virulence, the PpdaAc may have significant roles in energy production, cell membrane, motility, chemotaxis, post-translational modifications, and iron-related mechanisms. Therefore, it is postulated that PpdaAc may possess pleiotropic effects. These results provide new insights into the functions of a previously unidentified PpdaAc in Ac.

ENZYMATIC STUDIES ON VITAMIN B6 METABOLISM

  • Kim, Young-Tae
    • 한국어병학회지
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    • 제6권2호
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    • pp.133-142
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    • 1993
  • 비타민은 동물과 어류에 있어 성장, 발육, 및 대사기능에 비교적 적은 양으로 요구되는 필수 미량원소이다. 이들 미세 영양분이 결핍됨으로써 식욕 감퇴에서부터 심한 조직 변형등의 증상들을 일으킨다. 수용성 vitamin B6는 비교적 적은양이 요구되며, 주로 보조 효소 기능을 가지고 있다. 비타민 B6라는 명칭은 유사한 대사 기능들을 가진 화학적으로 관련된 pyridoxine, pyridoxamine, pyridoxal들을 의미한다. 비타민 B6는 비 반추 포유류, 조류와 어류의 음식물을 통해 섭취되는 성분이며, 비타민 B6 화합물들은 식물과 미생물 등에 의해 합성된다. 대사적으로 활성형인 비타민 B6 보조효소는 pyridoxal-5-phsphate(PLP)이며, decarboxylases, aminotransferases, sulfhydrases, tryptophanases를 포함한 아미노산 대사에 관여하는 여러 효소들(PLP-dependant)에 coenzyme으로 작용한다. 비타민 B6 요구량이 육식 동물보다 고단백질을 섭취하는 어류에서 더 높다. B6는 탄수화물과 지질의 대사에도 역시 관여하며 heme과 serotonin의 합성에 필수적이다. 어류에서 결핍증(현상)은 빨리 나타나는데, 이러한 증세로는 신경계 분열, 경련, 유영 부조화, 피부병변, 부종, 안구 돌출, 근 긴장성 경련 등이 포함된다. 비타민 B6는 pyridoxal kinase와 pyridoxine(pyridoxamine) oxidase의 촉매 반응에 의해 생체내 활성형인 PLP로 된다. PLP는 PLP-의존성 효소에서 보조 효소로 필수적인 역할을 하는 관계로 이 논문에서는 비타민 B6 생합성 및 대사와 비타민 B6 의존성 효소(aminotransferase)의 특성과 작용기작에 대한 효소학적 연구를 중점으로 이들 enzyme들의 구조와 기능에 대한 최근 연구 동향을 살펴보고자 한다.

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Isolation and Characterization of cDNA Encoding Pyridoxal Kinase from Ovine Liver

  • Lee, Hyun-Shik;Choi, Soo-Young;Kwon, Oh-Shin
    • BMB Reports
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    • 제32권5호
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    • pp.502-505
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    • 1999
  • cDNA fragments of ovine liver pyridoxal kinase were amplified by PCR using degenerate oligonucleotide primers derived from partial amino acids sequences of the enzyme. Using PCR products as probes, several overlapping cDNA clones were isolated independently from an ovine liver and a human brain cDNA library. The largest cDNA clone for each was selected for sequence analysis. The ovine liver cDNA encodes a polypeptide of 297 amino acid residues with Mr of 32,925, whereas the human clone is comprised of an open reading frame encoding 312 amino acid residues with Mr of 35,102. The deduced sequence of the human brain enzyme is completely identical to that of human testes cDNA recently reported (Hanna et al., 1997). The ovine enzymes have approximately 77% sequence identity with the human enzyme although the two sequences are completely different in the N-terminus comprising 32 residues. This result suggests that pyridoxal kinase is highly homologous in mammalian species.

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Vitamin $B_6$와 Pyrazinamide의 약물상호작용 (II) (Drug Interaction of Vitamin $B_6$ and Pyrazinamide (II))

  • 허근;이상일;박종민;김석환
    • 약학회지
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    • 제31권4호
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    • pp.197-203
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    • 1987
  • When pyrazinamide is used in the treatment of tuberculosis, the measurement of pyrazinoic acid which is an intermediate metabolite of pyrazinamide in body is required in order to prevent its associated side-effects, especially that of hyperuricemia. Effects of vitamin B$_6$ on pyrazinoic acid metabolism were studied in this experiment. The activity of hepatic pyrazinoic acid oxidizing enzyme in the presence of pyridoxal was powerfully inhibited, and the pattern was competitive inhibition type. Whereas, its enzyme activity was significantly increased by the treatment of pyridoxal, and the characteristics of the increase may include induction of enzyme proteins. As mice received pyrazinoic acid(300mg/kg) after pyridoxal-pretreatment(40mg/kg) once daily for 4 days, the blood level of pyrazinoic acid and uric acid was decreased significantly.

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Tat-mediated Protein Transduction of Human Brain Pyridoxine-5-P Oxidase into PC12 Cells

  • Kim, So-Young;An, Jae-Jin;Kim, Dae-Won;Choi, Soo-Hyun;Lee, Sun-Hwa;Hwang, Seok-Il;Kwon, Oh-Shin;Kang, Tae-Cheon;Won, Moo-Ho;Cho, Sung-Woo;Park, Jin-Seu;Eum, Won-Sik;Lee, Kil-Soo;Choi, Soo-Young
    • BMB Reports
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    • 제39권1호
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    • pp.76-83
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    • 2006
  • Pyridoxine-5-P oxidase catalyses the terminal step in the biosynthesis of pyridoxal-S-P, the biologically active form of vitamin $B_6$ Which acts as an essential cofactor. Here, a human brain pyridoxine-5-P oxidase gene was fused with a gene fragment encoding the HIV-1 Tat protein transduction domain (RKKRRQRRR) in a bacterial expression vector to produce a genetic in-frame Tat-pyridoxine-5-P oxidase fusion protein. Expressed and purified Tat-pyridoxine-5-P oxidase fusion protein transduced efficiently into PC12 cells in a time- and dose-dependent manner when added exogenously to culture media. Once inside the cells, the transduced Tat-pyridoxine-5-P oxidase protein showed catalytic activity and was stable for 48 h. Moreover, the formation of pyridoxal-5-P was increased by adding exogenous Tat-pyridoxine-5-P oxidase to media pre-treated with the vitamin $B_6$ precursor pyridoxine. In addition, the intracellular concentration of pyridoxal-S-P was markedly increased when Tat-pyridoxal kinase was transduced together with Tat-pyridoxine-5-P oxidase into cells. These results suggest that the transduction of Tat-pyridoxine-5-P oxidase fusion protein presents a means of regulating the level of pyridoxal-5-P and of replenishing this enzyme in various neurological disorders related to vitamin $B_6$.

Human brain pyridoxal-5'-phosphate phosphatase (PLPP): protein transduction of PEP-1-PLPP into PC12 cells

  • Lee, Yeom-Pyo;Kim, Dae-Won;Lee, Min-Jung;Jeong, Min-Seop;Kim, So-Young;Lee, Sun-Hwa;Jang, Sang-Ho;Park, Jin-Seu;Kang, Tae-Cheon;Won, Moo-Ho;Cho, Sung-Woo;Kwon, Oh-Shin;Eum, Won-Sik;Choi, Soo-Young
    • BMB Reports
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    • 제41권5호
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    • pp.408-413
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    • 2008
  • Pyridoxal-5'-phosphate phosphatase (PLPP) catalyzes the dephosphorylation of pyridoxal-5'-phosphate (PLP). A human brain PLPP gene was fused with a PEP-1 peptide and produced a genetic in-frame PEP-1-PLPP fusion protein. The purified PEP-1-PLPP fusion protein was efficiently transduced into PC12 cells in a time- and dose-dependent manner when added exogenously to culture media. Once inside the cells, the transduced PEP-1-PLPP fusion protein was stable for 36 h. The concentration of PLP was markedly decreased by the addition of exogenous PEP-1-PLPP to media pretreated with the vitamin $B_6$ precursors; pyridoxine, pyridoxal kinase and pyridoxine-5'-phosphate oxidase into cells. The results suggest that the transduction of the PEP-1-PLPP fusion protein can be one mode of PLP level regulation, and to replenish this enzyme in the various neurological disorders related to vitamin $B_6$.