scholarly article | Q13442814 |
P2093 | author name string | Tao Jiang | |
Linsheng Cao | |||
Wenwei Chen | |||
Yanfeng He | |||
Houping Mao | |||
Huiliang Zhou | |||
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A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding | Q25938984 | ||
Hyperoxaluria: a gut-kidney axis? | Q27013855 | ||
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Oxalate decarboxylase and oxalate oxidase activities can be interchanged with a specificity switch of up to 282,000 by mutating an active site lid | Q27648734 | ||
New insights into structure-function relationships of oxalyl CoA decarboxylase from Escherichia coli | Q27662338 | ||
Functional eubacteria species along with trans-domain gut inhabitants favour dysgenic diversity in oxalate stone disease | Q58571195 | ||
Glyoxylate synthesis, and its modulation and influence on oxalate synthesis | Q77449183 | ||
Chemical synthesis of oxalyl-coenzyme A and its enzymic reduction to glyoxylate | Q79058235 | ||
Lactobacillus gasseri Gasser AM63(T) degrades oxalate in a multistage continuous culture simulator of the human colonic microbiota | Q80345059 | ||
The primary hyperoxalurias | Q83370521 | ||
Oxalobacter colonization in the morbidly obese and correlation with urinary stone risk | Q84000496 | ||
Understanding the gut-kidney axis in nephrolithiasis: an analysis of the gut microbiota composition and functionality of stone formers | Q88504264 | ||
Inhibition of urinary stone disease by a multi-species bacterial network ensures healthy oxalate homeostasis | Q92302733 | ||
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The role of Oxalobacter formigenes colonization in calcium oxalate stone disease | Q28287913 | ||
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Structural basis for activation of the thiamin diphosphate-dependent enzyme oxalyl-CoA decarboxylase by adenosine diphosphate. | Q30351586 | ||
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Oxalobacter formigenes gen. nov., sp. nov.: oxalate-degrading anaerobes that inhabit the gastrointestinal tract | Q36495169 | ||
Heart failure with mitral valve regurgitation due to primary hyperoxaluria type 1: case report with review of the literature | Q36834838 | ||
Intestinal and renal handling of oxalate loads in normal individuals and stone formers. | Q37088365 | ||
Hyperoxaluria leads to dysbiosis and drives selective enrichment of oxalate metabolizing bacterial species in recurrent kidney stone endures | Q37314836 | ||
Oxalate-degrading bacteria of the human gut as probiotics in the management of kidney stone disease | Q37770140 | ||
Oxalobacter formigenes and its potential role in human health. | Q39640207 | ||
Transcriptional and functional analysis of oxalyl-coenzyme A (CoA) decarboxylase and formyl-CoA transferase genes from Lactobacillus acidophilus | Q43234761 | ||
Reduction of oxaluria after an oral course of lactic acid bacteria at high concentration | Q43725743 | ||
MAFFT online service: multiple sequence alignment, interactive sequence choice and visualization. | Q47664445 | ||
16S rRNA gene sequencing reveals altered composition of gut microbiota in individuals with kidney stones | Q49898264 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P4510 | describes a project that uses | Cytoscape | Q3699942 |
P304 | page(s) | 672 | |
P577 | publication date | 2020-04-23 | |
P1433 | published in | Frontiers in Microbiology | Q27723481 |
P1476 | title | Abundance, Functional, and Evolutionary Analysis of Oxalyl-Coenzyme A Decarboxylase in Human Microbiota | |
P478 | volume | 11 |
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