review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.3920/BM2012.0029 |
P698 | PubMed publication ID | 23257016 |
P50 | author | Michael Blaut | Q54344505 |
P2093 | author name string | M Rothe | |
P2860 | cites work | Bacterial defenses against oxidative stress | Q37570468 |
The OxyR regulon | Q38008324 | ||
Comparative genomics of the KdgR regulon in Erwinia chrysanthemi 3937 and other gamma-proteobacteria. | Q41460782 | ||
Impact of nutritional factors on the proteome of intestinal Escherichia coli: induction of OxyR-dependent proteins AhpF and Dps by a lactose-rich diet. | Q42000303 | ||
The transcription elongation factor NusA is required for stress-induced mutagenesis in Escherichia coli | Q42916075 | ||
Oxidative stress response in Clostridium perfringens | Q47376874 | ||
The dps promoter is activated by OxyR during growth and by IHF and σs in stationary phase | Q47673138 | ||
A small, stable RNA induced by oxidative stress: role as a pleiotropic regulator and antimutator | Q48047346 | ||
Absence of intestinal microbiota does not protect mice from diet-induced obesity. | Q51401205 | ||
Human intestinal microbiota: characterization of a simplified and stable gnotobiotic rat model. | Q54392908 | ||
Development of the human infant intestinal microbiota | Q21003936 | ||
Obesity alters gut microbial ecology | Q24531503 | ||
Molecular monitoring of succession of bacterial communities in human neonates | Q24534898 | ||
Linking long-term dietary patterns with gut microbial enterotypes | Q24609914 | ||
An obesity-associated gut microbiome with increased capacity for energy harvest | Q27860515 | ||
Microbial ecology: human gut microbes associated with obesity | Q27861004 | ||
Evolution of mammals and their gut microbes | Q28755326 | ||
Diet-induced obesity is linked to marked but reversible alterations in the mouse distal gut microbiome | Q29617424 | ||
Reduced diversity of faecal microbiota in Crohn's disease revealed by a metagenomic approach | Q29617547 | ||
Carbon nutrition of Escherichia coli in the mouse intestine | Q33905687 | ||
Bile acid is a host factor that regulates the composition of the cecal microbiota in rats. | Q33992194 | ||
The redox-sensitive transcriptional activator OxyR regulates the peroxide response regulon in the obligate anaerobe Bacteroides fragilis | Q33994579 | ||
Bacterial suicide through stress | Q34158433 | ||
Transcriptional regulator of oxidative stress-inducible genes: direct activation by oxidation | Q34207376 | ||
Intertwinement of stress response regulons in Bifidobacterium breve UCC2003 | Q34503557 | ||
Analysis of an Erwinia chrysanthemi gene cluster involved in pectin degradation. | Q34657628 | ||
Time-dependent proteome alterations under osmotic stress during aerobic and anaerobic growth in Escherichia coli | Q35130080 | ||
Reciprocal gut microbiota transplants from zebrafish and mice to germ-free recipients reveal host habitat selection | Q36821642 | ||
Establishment of the gut microbiota in Western infants. | Q37368368 | ||
P433 | issue | 1 | |
P304 | page(s) | 31-37 | |
P577 | publication date | 2013-03-01 | |
P1433 | published in | Beneficial microbes | Q27722361 |
P1476 | title | Evolution of the gut microbiota and the influence of diet | |
P478 | volume | 4 |
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Q44367069 | Foreword: prebiotics that modulate the endogenous microbiota are also very important |
Q46261769 | Maternal high fat diet and its consequence on the gut microbiome: A rat model |
Q29994526 | Optimizing methods and dodging pitfalls in microbiome research |
Q90028310 | The Intestinal Microbiota of Hermetia illucens Larvae Is Affected by Diet and Shows a Diverse Composition in the Different Midgut Regions |
Q91807508 | The Simplified Human Intestinal Microbiota (SIHUMIx) Shows High Structural and Functional Resistance against Changing Transit Times in In Vitro Bioreactors |
Q26744415 | The role of Gut Microbiota in the development of obesity and Diabetes |
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