B
Bilal Alrubaye Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
faculty
6 h-index
10 pubs
160 cited
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
Bilal Alrubaye's research focuses on the interactions between host microbiota, microbial metabolites, and pathogens, particularly in the context of poultry health. His work has investigated how specific bile acid microbial metabolites can modulate the virulence of *Clostridium perfringens*, a common pathogen in chickens. He has also explored the use of recombinant bile salt hydrolase to enhance the inhibitory effects of taurodeoxycholic acid against *C. perfringens* virulence factors. Additionally, Alrubaye has studied the potential of microbiota from specific pathogen-free mice to reduce *Campylobacter jejuni* colonization in chickens. His scholarship metrics include an h-index of 6, with 10 total publications and 160 total citations. He has collaborated with researchers such as Xiaolun Sun, Tahrir Alenezi, and Ying Fu.
Metrics
- h-index: 6
- Publications: 10
- Citations: 160
Selected Publications
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Recombinant Bile Salt Hydrolase Enhances the Inhibition Efficiency of Taurodeoxycholic Acid against Clostridium perfringens Virulence (2024)
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Potent Bile Acid Microbial Metabolites Modulate Clostridium perfringens Virulence (2023)
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Microbiota from Specific Pathogen-Free Mice Reduces Campylobacter jejuni Chicken Colonization (2021)
Collaboration Network
Top Collaborators
Ying Fu
University of Arkansas at Fayetteville
3 shared publications
In database
- Potent Bile Acid Microbial Metabolites Modulate Clostridium perfringens Virulence
- Recombinant Bile Salt Hydrolase Enhances the Inhibition Efficiency of Taurodeoxycholic Acid against Clostridium perfringens Virulence
- Microbiota from Specific Pathogen-Free Mice Reduces Campylobacter jejuni Chicken Colonization
Tahrir Alenezi
University of Arkansas at Fayetteville
3 shared publications
In database
- Potent Bile Acid Microbial Metabolites Modulate Clostridium perfringens Virulence
- Recombinant Bile Salt Hydrolase Enhances the Inhibition Efficiency of Taurodeoxycholic Acid against Clostridium perfringens Virulence
- Microbiota from Specific Pathogen-Free Mice Reduces Campylobacter jejuni Chicken Colonization
Xiaolun Sun
University of Arkansas at Fayetteville
3 shared publications
In database
- Potent Bile Acid Microbial Metabolites Modulate Clostridium perfringens Virulence
- Recombinant Bile Salt Hydrolase Enhances the Inhibition Efficiency of Taurodeoxycholic Acid against Clostridium perfringens Virulence
- Microbiota from Specific Pathogen-Free Mice Reduces Campylobacter jejuni Chicken Colonization
Ayidh Almansour
University of Arkansas at Fayetteville (US)
2 shared publications
- Potent Bile Acid Microbial Metabolites Modulate Clostridium perfringens Virulence
- Microbiota from Specific Pathogen-Free Mice Reduces Campylobacter jejuni Chicken Colonization
Mohit Bansal
University of Arkansas at Fayetteville
1 shared publication
In database
- Microbiota from Specific Pathogen-Free Mice Reduces Campylobacter jejuni Chicken Colonization
Hong Wang
University of Arkansas at Fayetteville (US)
1 shared publication
- Microbiota from Specific Pathogen-Free Mice Reduces Campylobacter jejuni Chicken Colonization
Thamer Alanazi
University of Arkansas at Fayetteville (US)
1 shared publication
- Potent Bile Acid Microbial Metabolites Modulate Clostridium perfringens Virulence
Hong Wang
University of Arkansas at Fayetteville
1 shared publication
In database
- Potent Bile Acid Microbial Metabolites Modulate Clostridium perfringens Virulence
Janashrit Shrestha
University of Arkansas at Fayetteville
1 shared publication
In database
- Recombinant Bile Salt Hydrolase Enhances the Inhibition Efficiency of Taurodeoxycholic Acid against Clostridium perfringens Virulence
Samar Algehani
University of Arkansas at Fayetteville
1 shared publication
In database
- Recombinant Bile Salt Hydrolase Enhances the Inhibition Efficiency of Taurodeoxycholic Acid against Clostridium perfringens Virulence
Hong Wang
University of Arkansas at Fayetteville (US)
1 shared publication
- Recombinant Bile Salt Hydrolase Enhances the Inhibition Efficiency of Taurodeoxycholic Acid against Clostridium perfringens Virulence
Rohana Liyanage
University of Arkansas at Fayetteville
1 shared publication
In database
- Recombinant Bile Salt Hydrolase Enhances the Inhibition Efficiency of Taurodeoxycholic Acid against Clostridium perfringens Virulence
Similar Researchers
Based on overlapping research topics
Mohit Bansal
University of Arkansas at Fayetteville
Gut microbiota and health
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James Higuita
Arkansas Agricultural Experiment Station
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Xiaolun Sun
University of Arkansas at Fayetteville
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O. Harrison
Arkansas Agricultural Experiment Station
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University of Arkansas for Medical Sciences
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Erika Shirer
Arkansas Agricultural Experiment Station
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