Microbial metabolism of pyridine, quinoline, acridine, and their derivatives under aerobic and anaerobic conditions
about
Cloning of a novel 6-chloronicotinic acid chlorohydrolase from the newly isolated 6-chloronicotinic acid mineralizing Bradyrhizobiaceae strain SG-6CDegradation of 2,3-diethyl-5-methylpyrazine by a newly discovered bacterium, Mycobacterium sp. strain DM-11A novel gene, encoding 6-hydroxy-3-succinoylpyridine hydroxylase, involved in nicotine degradation by Pseudomonas putida strain S16.Deciphering the genetic determinants for aerobic nicotinic acid degradation: the nic cluster from Pseudomonas putida KT2440Molecular and functional analysis of nicotinate catabolism in Eubacterium barkeriDegradation of the fluoroquinolone enrofloxacin by the brown rot fungus Gloeophyllum striatum: identification of metabolitesInteraction of 8-hydroxyquinoline with soil environment mediates its ecological functionAnaerobic catabolism of aromatic compounds: a genetic and genomic view.Recent advances in petroleum microbiologyOxyfunctionalization of pyridine derivatives using whole cells of Burkholderia sp. MAK1Novel nicotine oxidoreductase-encoding gene involved in nicotine degradation by Pseudomonas putida strain S16Iron(II)-dependent dioxygenase and N-formylamide deformylase catalyze the reactions from 5-hydroxy-2-pyridone to maleamate.Mechanism of the 6-hydroxy-3-succinoyl-pyridine 3-monooxygenase flavoprotein from Pseudomonas putida S16.Genome features of Pseudomonas putida LS46, a novel polyhydroxyalkanoate producer and its comparison with other P. putida strains.Enrichment and characterization of a bacterial culture that can degrade 4-aminopyridine.Novel gene clusters and metabolic pathway involved in 3,5,6-trichloro-2-pyridinol degradation by Ralstonia sp. strain T6.Anaerobic metabolism of indoleacetateMetabolic functions of Pseudomonas fluorescens strains from Populus deltoides depend on rhizosphere or endosphere isolation compartment.Sustainable production of valuable compound 3-succinoyl-pyridine by genetically engineering Pseudomonas putida using the tobacco waste.Cytosine chemoreceptor McpC in Pseudomonas putida F1 also detects nicotinic acid.Epoxy Coenzyme A Thioester pathways for degradation of aromatic compounds.A 2-Hydroxypyridine Catabolism Pathway in Rhodococcus rhodochrous Strain PY11.Selective removal of nitrogen from quinoline and petroleum by Pseudomonas ayucida IGTN9m.Degradation of 3-methylpyridine and 3-ethylpyridine by Gordonia nitida LE31.Anaerobic and aerobic degradation of pyridine by a newly isolated denitrifying bacterium.Degradation of tetrahydrofurfuryl alcohol by Ralstonia eutropha is initiated by an inducible pyrroloquinoline quinone-dependent alcohol dehydrogenase.The transcriptional regulator BpsR controls the growth of Bordetella bronchiseptica by repressing genes involved in nicotinic acid degradation.Elucidation of the trigonelline degradation pathway reveals previously undescribed enzymes and metabolites.Current status on biochemistry and molecular biology of microbial degradation of nicotine.The enzymes of microbial nicotine metabolism
P2860
Q21090832-5524E990-3999-4F20-8EDC-C0293D7826F7Q24544063-9E7197EB-F6E7-41A1-96CA-B62925930EC7Q24641820-D64E4201-F0FD-4EE1-A870-165771CD19EBQ24644289-47973051-26F8-4369-9C2F-7A3010CC3BFEQ24675307-59BAF2CA-6F9E-4848-80E6-F5238B78BD4EQ28254007-AA9B9AC1-5A17-4240-AFD1-7CCF85CC3D18Q28475547-66F243A5-B258-4DE9-B2A3-9C6D496138FFQ28755251-B30FEE33-B0D1-4BE1-91B4-C0BECA24DAB9Q28776477-FC445D94-1A3D-4ED5-933F-546AA6D58CC8Q28817255-39202F3C-217A-4FFE-9F3C-BC716056E4F2Q30485658-A316E07F-93AD-4358-9ABD-85078A9E9037Q30696324-0C297C0A-6284-4E28-B310-AEEF64BD1193Q34355732-070D738C-FBB7-4B35-8851-4FEC94464EF2Q34505152-F5737D4D-FC2E-4DB5-8452-4E10E92866FAQ34630811-5BDF6F24-9410-4599-A66E-F4017EEDA7C4Q34993778-1DF3E17A-98C3-4B37-AB41-24CED94C2430Q36018258-1064DE8B-34BE-4D0F-8E95-C1BCEF8B6D32Q36158018-E8156FA0-3B1B-46AE-BFC1-F5465E3670FDQ36285761-D9A04257-00BA-4F05-8E70-3DE19D1F5E76Q36739320-B50AECCF-AFC5-44FA-82F1-1B93343CE7D0Q38009791-1D618088-79A5-492D-B537-E06B4DF7709BQ38386806-1E1882DA-C914-4182-B352-12362212B27EQ39485039-12DE523E-8799-4130-BB55-B8F563672D6EQ39492605-206AF40E-2892-4F36-A7F7-84322DD17AB0Q39802478-99265AA8-40BD-4B3F-B0B3-F20F47097677Q39803734-7F2C65E3-830D-45DD-8FB1-AC14124FEE1DQ51144553-17D297DD-AE29-4AFD-BEFB-9374BADA32ABQ52568665-A5B35ABD-5166-4215-B88F-A6B705B7D362Q54326631-C479F0F2-93B2-404B-8DE6-2EA53F5DD73AQ58781688-5DA61F5C-1B09-45D7-AEA1-1C3FF86FA546
P2860
Microbial metabolism of pyridine, quinoline, acridine, and their derivatives under aerobic and anaerobic conditions
description
1996 nî lūn-bûn
@nan
1996 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1996 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
name
Microbial metabolism of pyridi ...... robic and anaerobic conditions
@ast
Microbial metabolism of pyridi ...... robic and anaerobic conditions
@en
Microbial metabolism of pyridi ...... robic and anaerobic conditions
@nl
type
label
Microbial metabolism of pyridi ...... robic and anaerobic conditions
@ast
Microbial metabolism of pyridi ...... robic and anaerobic conditions
@en
Microbial metabolism of pyridi ...... robic and anaerobic conditions
@nl
prefLabel
Microbial metabolism of pyridi ...... robic and anaerobic conditions
@ast
Microbial metabolism of pyridi ...... robic and anaerobic conditions
@en
Microbial metabolism of pyridi ...... robic and anaerobic conditions
@nl
P2093
P2860
P1476
Microbial metabolism of pyridi ...... robic and anaerobic conditions
@en
P2093
P2860
P304
P407
P577
1996-09-01T00:00:00Z