Melamine deaminase and atrazine chlorohydrolase: 98 percent identical but functionally different
about
A gold standard set of mechanistically diverse enzyme superfamilies.Biodegradation of 5-nitroanthranilic acid by Bradyrhizobium sp. strain JS329Molecular and biochemical characterization of the 5-nitroanthranilic acid degradation pathway in Bradyrhizobium sp. strain JS329Discovery of a dipeptide epimerase enzymatic function guided by homology modeling and virtual screeningAncient Evolution and Recent Evolution Converge for the Biodegradation of Cyanuric Acid and Related TriazinesLeveraging structure for enzyme function prediction: methods, opportunities, and challengesHomology models guide discovery of diverse enzyme specificities among dipeptide epimerases in the enolase superfamilyStructure-guided discovery of new deaminase enzymesRapid bursts and slow declines: on the possible evolutionary trajectories of enzymesPhylogenetics in the bioinformatics culture of understandingFunctional annotation and structural characterization of a novel lactonase hydrolyzing D-xylono-1,4-lactone-5-phosphate and L-arabino-1,4-lactone-5-phosphate.Evolution of efficient pathways for degradation of anthropogenic chemicals.Improving the quality of protein similarity network clustering algorithms using the network edge weight distribution.Enzymatic degradation of chlorodiamino-s-triazine.Catalytic improvement and evolution of atrazine chlorohydrolase.Prediction of functionally important residues in globular proteins from unusual central distances of amino acids.The structure of the hexameric atrazine chlorohydrolase AtzALarge-scale analysis of orthologs and paralogs under covarion-like and constant-but-different models of amino acid evolutionArthrobacter aurescens TC1 metabolizes diverse s-triazine ring compounds.Isolation and characterization of atrazine mineralizing Bacillus subtilis strain HB-6Exploring functionally related enzymes using radially distributed properties of active sites around the reacting points of bound ligandsIntramolecular epistasis and the evolution of a new enzymatic functionEvolution of catabolic pathways: Genomic insights into microbial s-triazine metabolism.X-ray structure of the amidase domain of AtzF, the allophanate hydrolase from the cyanuric acid-mineralizing multienzyme complex.Identification of a new class of adenosine deaminase from Helicobacter pylori with homologs among diverse taxa.Risks associated with melamine and related triazine contamination of foodExpanding the enzyme universe: accessing non-natural reactions by mechanism-guided directed evolution.Function discovery and structural characterization of a methylphosphonate esterase.Plasmid localization and organization of melamine degradation genes in Rhodococcus sp. strain Mel.Functional Trade-Offs in Promiscuous Enzymes Cannot Be Explained by Intrinsic Mutational Robustness of the Native ActivityOccurrence, diversity and community structure of culturable atrazine degraders in industrial and agricultural soils exposed to the herbicide in Shandong Province, P.R. China.The enzymatic basis for pesticide bioremediation.Developing a genetic manipulation system for the Antarctic archaeon, Halorubrum lacusprofundi: investigating acetamidase gene function.Enzyme recruitment and its role in metabolic expansion.Atrazine biodegradation in the lab and in the field: enzymatic activities and gene regulationSimazine treatment history determines a significant herbicide degradation potential in soils that is not improved by bioaugmentation with Pseudomonas sp. ADP.Purification, substrate range, and metal center of AtzC: the N-isopropylammelide aminohydrolase involved in bacterial atrazine metabolism.On the origins of cyanuric acid hydrolase: purification, substrates, and prevalence of AtzD from Pseudomonas sp. strain ADP.The HigB/HigA toxin/antitoxin system of Pseudomonas aeruginosa influences the virulence factors pyochelin, pyocyanin, and biofilm formation.Mineralization of melamine and cyanuric acid as sole nitrogen source by newly isolated Arthrobacter spp. using a soil-charcoal perfusion method.
P2860
Q21184154-AB845714-6CB0-4E0A-83D9-857950A00A03Q24633540-6568D560-1FE4-4AEC-9F4E-1BE255587BF9Q24634308-54125CD5-4BBF-4D67-A878-B97A559A7DE5Q24646625-F38AE28B-EE45-4CEC-8883-D8C745E24E3CQ26771222-17432E1C-EDB4-46B7-96D3-EF44BBA813E4Q26820871-2851BAF3-158E-4DDC-9326-44EF194751D6Q27677856-6144A155-02E8-4E33-8638-1F3B72AA3B1EQ28485418-B8B005A7-E127-47FF-B128-9024F994BB96Q28607014-74976088-868D-4FA8-ACEC-97A01BC3A8D0Q28757800-C0BF3463-6FA3-42F2-B3FB-096F6D2966E9Q30153381-BDAE2F66-3696-4F86-873E-C4CF47E5E245Q30481546-8DAFC43B-93E1-42E4-A590-FF74E4F4D8CEQ33759251-4E3DE5BA-0ED8-450F-8BC0-3BC0FBEB994BQ33961088-6BDD6D44-4649-43BE-9A27-AF730A0A2AF8Q34016021-ECCB3ACF-00EF-41EC-AA06-AA65B468ACEDQ34021002-A1C367DA-BDD7-4BEF-A044-BEF255B9F05DQ34043420-9F9B41F5-861A-49E2-9B11-ACDB5E3DCF05Q34120942-06972EC2-2AD8-42A1-AF49-077CC6F92DEEQ34160790-702D2EA3-7F1F-4A33-900E-7BA9391371A6Q34215527-E0167F3E-2E2D-4690-AD01-8A003C63BAF2Q34247725-7A6E77C0-0710-4740-B3C6-3A1333705786Q34328302-28431AB4-F649-4B87-8843-4F5B6EDE5B38Q34572653-4206DEDC-291A-423E-8603-A5FA636952AEQ34777599-EEB493DE-8573-44F7-93F8-887FCC36F593Q34818810-067E4358-779C-4C9C-AB36-64CE2ACE3C70Q35198480-417E038B-F1A1-40D5-96B0-8EDC6282E4FEQ35504479-23255599-2C68-4DF2-9011-8317B5203641Q35769343-910C65D0-F0FD-4720-9CD8-EB1A84811169Q35804760-29519C43-0488-4941-A13D-A18DA724B670Q36157563-216FFA0A-2370-4F06-8014-B7D6C50034F8Q36184523-AF359146-42BE-4C49-8171-A75242763F8BQ36256240-F9FB5233-4889-4974-BFF7-D6B10E536730Q37314718-CCFCECB5-B4CB-4481-BC3D-FB7D8D42DFE4Q37701356-CA97725B-980A-4C36-B45A-4F4F75552604Q37831987-FEE48867-3DE3-4AE8-B1FD-6589396F8F0CQ39270565-F1581096-D90F-4838-B613-6DA4C78927B3Q39680444-CF605FA8-CE1D-4E27-A64E-15175166C209Q39774581-10BA5A24-44AC-48C4-9FCB-D5FC0E368709Q39912331-883999E3-1FE1-4DF0-A89A-0C74D026C4EAQ41266423-7FEF56E8-857B-4B3A-9727-52376D3A61B6
P2860
Melamine deaminase and atrazine chlorohydrolase: 98 percent identical but functionally different
description
2001 nî lūn-bûn
@nan
2001 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Melamine deaminase and atrazin ...... cal but functionally different
@ast
Melamine deaminase and atrazin ...... cal but functionally different
@en
Melamine deaminase and atrazin ...... cal but functionally different
@nl
type
label
Melamine deaminase and atrazin ...... cal but functionally different
@ast
Melamine deaminase and atrazin ...... cal but functionally different
@en
Melamine deaminase and atrazin ...... cal but functionally different
@nl
prefLabel
Melamine deaminase and atrazin ...... cal but functionally different
@ast
Melamine deaminase and atrazin ...... cal but functionally different
@en
Melamine deaminase and atrazin ...... cal but functionally different
@nl
P2093
P2860
P3181
P1476
Melamine deaminase and atrazin ...... cal but functionally different
@en
P2093
J L Seffernick
L P Wackett
M J Sadowsky
M L de Souza
P2860
P304
P3181
P356
10.1128/JB.183.8.2405-2410.2001
P407
P577
2001-04-01T00:00:00Z