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Dr Indrani Mukhopadhya

Dr Indrani Mukhopadhya
Dr Indrani Mukhopadhya
Dr Indrani Mukhopadhya

BSc (Hons), MSc, PhD, FHEA

Lecturer

Accepting PhDs

About
Email Address
indrani.mukhopadhya@abdn.ac.uk
Office Address
6.30 Institute of Medical Sciences
Foresterhill Campus
Ashgrove Road West
AB25 2ZD

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School/Department
School of Medicine, Medical Sciences and Nutrition
ORCiD
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External Memberships

Member of the Microbiology Society

Member of the British Society of Immunology (BSI)

Member of the British Society of Gastroenterology (BSG)

Member of the UK Gut Microbiota for Health Expert Panel 

STEM Ambassador

Latest Publications

View My Publications

Research

Research Overview

  • To underpin the role of the gut microbiota in health and disease.
  • Elucidate host-pathogen interactions, pathogenic mechanisms, and immune response of enteric microbes.
  • Investigate the mechanism by which gut viruses initiate chronic inflammation in the aetiopathogenesis of inflammatory bowel disease and other gastrointestinal diseases.
  • Harness the power of gut microbes as novel therapeutic agents.

Research Areas

Accepting PhDs

I am currently accepting PhDs in Biomedical Sciences.

Please get in touch if you would like to discuss your research ideas further.

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Biomedical Sciences

Accepting PhDs
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Research Specialisms

  • Microbiology
  • Virology
  • Immunology
  • Molecular Biology
  • Gastroenterology

Our research specialisms are based on the Higher Education Classification of Subjects (HECoS) which is HESA open data, published under the Creative Commons Attribution 4.0 International licence.

Current Research

Comparison of microbial signatures between paired faecal and rectal biopsy samples from healthy volunteers using next generation sequencing and culturomics

IBD goes viral - Understanding the causes of Inflammatory Bowel Disease

Knowledge Exchange

  • Institute of Medical Sciences, UoA, Doors open day, 2024
  • Grampian Liver Research Patient Engagement Event -presentation on Gut Microbiota in liver disease, 2024
  • Podcast on Next generation biotherapeutics 2023 Podcast link
  • Institute of Medical Sciences, UoA, Doors open day, 2023
  • University of Aberdeen May fest 2019, Fantastic Microbes and Where to Find Them.
  • Café MED talk on IBD research aimed at a general audience, June 2018
  • University of Aberdeen May fest 2017, Man vs Microbes Quiz, aimed to test and enhance public knowledge of microbiology and measures to stay safe from
  • Filmed for a short video clip describing my ISSF project (2016), which is now hosted on the ISSF@Aberdeen university website and also on the college YouTube channel

Supervision

Current PhD Supervision:

2023-2027  Sam Mcvey 

2024-2027   Albandari Alzaidi

2024-2028  Jamie Innes (co-supervisor with Prof. Peter Mccaffery)

2024-2028   Melissa Matos (co-supervisor with Dr. Candice Quin)

Funding and Grants

  • IMS PhD studentship - Oct 2023-2027
  • Laboratory start-up fund from Institute of Medical Sciences, UoA - Nov 2022

  • Health Protection Scotland grant awarded in Feb 2019 for genotyping of representative rotavirus isolates post introduction of rotavirus vaccine in Scotland – PI

  • Wellcome Trust ISSF @ Aberdeen fellowship support award, from October 2015 to March 2016, for the project titled “Role of the enteric virome and its interaction with the bacterial and fungal microbiome in the aetiopathogenesis of Crohn’s disease” – PI

  • Health Protection Scotland grant awarded in March 2015 for genotyping of representative rotavirus isolates post introduction of rotavirus vaccine in Scotland – Co-PI

  • NHS Grampian Endowment Funding Grant 2014/2015 for the project titled “Elucidating the Role of Non Jejuni/coli-Campylobacter in the Development of Colorectal Cancer Utilising Comparative Genomics to Study their Pathogenetic Potential” – PI

Datasets

  • Comparison of microbial signatures between paired faecal and rectal biopsy samples from healthy volunteers using next-generation sequencing and culturomics

    Background Faecal samples are frequently used to characterise the gut microbiota in health and disease, yet there is considerable debate about how representative faecal bacterial profiles are of the overall gut community. A particular concern is whether bacterial populations associated with the gut mucosa are properly represented in faecal samples, since these communities are considered critical in the aetiology of gastrointestinal diseases. In this study we compared the profiles of the faecal and mucosal microbiota from ten healthy volunteers using bacterial culturing (culturomics) and next-generation sequencing targeting the 16S ribosomal nucleic acid (rRNA) gene. Paired fresh rectal biopsies and faecal samples were processed under stringent anaerobic conditions to maintain the viability of the bacteria. Four different sample types were analysed: faecal (F), faecal homogenised (FHg), biopsy tissue (B) and biopsy wash (BW) samples. Results There were no significant statistical differences in either bacterial richness or diversity between biopsy washes (BW) and faecal (F) or faecal homogenised (FHg) samples. Principal coordinates analysis of a Bray–Curtis distance matrix generated from sequence variant tables did not show distinct clustering between these samples (PERMANOVA; p = 0.972) but showed strong clustering of samples from individual donors. However, the rectal biopsy tissue (B) samples had a significantly altered bacterial signature with greater abundance of Proteobacteria and Acidobacteria compared to faecal (F) and faecal homogenised (FHg) samples. A total of 528 bacteria encompassing 92 distinct bacterial species were isolated and cultured from a subset of six volunteer samples (biopsy washes and faeces). This included isolation of 22 novel bacterial species. There was significant similarity between the bacterial species grown in anaerobic culture and those identified by 16S rRNA gene sequencing (Spearman correlation; rho = 0.548, p = 0.001). Conclusion This study showed that the bacterial profiles of paired faecal and rectal biopsy wash samples were very similar, validating the use of faecal samples as a convenient surrogate for rectal biopsy-associated microbiota. Anaerobic bacterial culture results showed similar taxonomic patterns to the amplicon sequence analysis disproving the dogma that culture-based methods do not reflect findings of molecular assessments of gut bacterial composition. Video abstract
    DOI
    10.6084/m9.figshare.c.6249986.v1
    Publisher
    Figshare
    Links
    Date Made Available
    26 December 2025
    Contributors
    Mukhopadhya, I. (Creator), Martin, J. (Creator), Shaw, S. (Creator), McKinley, A. J. (Creator), Gratz, S. W. (Creator), Scott, K. P. (Creator)
View My Datasets on Pure
Teaching

Courses

Teaching Responsibilities

Undertake lectures, workshops, practicals, tutorials and assessments for microbiology and immunology courses at the University.

 

Non-course Teaching Responsibilities

  • Supervising BSc Honours and MSc projects
  • Personal Tutor for UoA students
  • Placement Tutor for MSci students
Publications

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