Professor Desmond Tobin,Honorary Visiting Professor
Information about Professor Desmond Tobin at the University of Bradford.
- School of Chemistry & Biosciences
(Faculty of Life Sciences) - Email:
- d.tobin@bradford.ac.uk
- Telephone:
- +44 1274 233585
Biography
Desmond J. Tobin is Professor of Cell Biology and Director of the Centre for Skin Sciences at University of Bradford. He holds a BSc from the National University of Ireland (Maynooth), a PhD from the University of London (St. John’s Institute of Dermatology) and post-doctoral training from New York University Medical School’s Dept. of Dermatology. Over the past 20 years he has researched in basic and applied skin/hair sciences, with a particular focus on the biology of human melanocytes/pigmentation and hair growth disorders (immune based).He is a Fellow of Royal College of Pathologists; Royal Society of Biology, and Institute of Trichologists (Vice-president). He has published over 140 publications and his H-Index is currently 53.Desmond J. Tobin is Professor of Cell Biology and Director of the Centre for Skin Sciences at University of Bradford. He holds a BSc from the National University of Ireland (Maynooth), a PhD from the University of London (St. John’s Institute of Dermatology) and post-doctoral training from New York University Medical School’s Dept. of Dermatology. Over the past 20 years he has researched in basic and applied skin/hair sciences, with a particular focus on the biology of human melanocytes/pigmentation and hair growth disorders (immune based).He is a Fellow of Royal College of Pathologists; Royal Society of Biology, and Institute of Trichologists (Vice-president). He has published over 140 publications and his H-Index is currently 53.Desmond J. Tobin is Professor of Cell Biology and Director of the Centre for Skin Sciences at University of Bradford. He holds a BSc from the National University of Ireland (Maynooth), a PhD from the University of London (St. John’s Institute of Dermatology) and post-doctoral training from New York University Medical School’s Dept. of Dermatology. Over the past 20 years he has researched in basic and applied skin/hair sciences, with a particular focus on the biology of human melanocytes/pigmentation and hair growth disorders (immune based).He is a Fellow of Royal College of Pathologists; Royal Society of Biology, and Institute of Trichologists (Vice-president). He has published over 140 publications and his H-Index is currently 53.
Research
Des’ current research focuses on the biology of skin, the body’s largest organ, and its appendages (e.g., hair follicle). This tissue provides an exceptional opportunity to analyse a highly accessible multi-interactive system of (neuro)ectodermal and mesenchymal cells (e.g., keratinocytes, melanocytes and fibroblasts), and their diverse subpopulations in skin. Regulation of skin and hair follicle pigmentation. Specific projects are currently focused on: POMC peptides in skin and hair follicle pigmentation; Melanocyte aging; Regulation of melanosome transfer from melanocytes to keratinocytes; Melanocyte : mesenchyme interactions in the hair follicle; Autoimmune responses to hair follicles in alopecia areata; Role of the hair follicle mesenchyme in wound healing.Des’ current research focuses on the biology of skin, the body’s largest organ, and its appendages (e.g., hair follicle). This tissue provides an exceptional opportunity to analyse a highly accessible multi-interactive system of (neuro)ectodermal and mesenchymal cells (e.g., keratinocytes, melanocytes and fibroblasts), and their diverse subpopulations in skin. Regulation of skin and hair follicle pigmentation. Specific projects are currently focused on: POMC peptides in skin and hair follicle pigmentation; Melanocyte aging; Regulation of melanosome transfer from melanocytes to keratinocytes; Melanocyte : mesenchyme interactions in the hair follicle; Autoimmune responses to hair follicles in alopecia areata; Role of the hair follicle mesenchyme in wound healing.Des’ current research focuses on the biology of skin, the body’s largest organ, and its appendages (e.g., hair follicle). This tissue provides an exceptional opportunity to analyse a highly accessible multi-interactive system of (neuro)ectodermal and mesenchymal cells (e.g., keratinocytes, melanocytes and fibroblasts), and their diverse subpopulations in skin. Regulation of skin and hair follicle pigmentation. Specific projects are currently focused on: POMC peptides in skin and hair follicle pigmentation; Melanocyte aging; Regulation of melanosome transfer from melanocytes to keratinocytes; Melanocyte : mesenchyme interactions in the hair follicle; Autoimmune responses to hair follicles in alopecia areata; Role of the hair follicle mesenchyme in wound healing.Current ProjectsCellular and molecular control of regulation of melanin distribution in skinImpact of glucose metabolism in cutaneous fibroblast cell populationsThe involvement of adipocyes in cutaneous wound healingContribution of adipocytes to dermal remodeling in radio-therapy treated skinBioinformatic approaches to human skin burn assessmentCurrent ProjectsCellular and molecular control of regulation of melanin distribution in skinImpact of glucose metabolism in cutaneous fibroblast cell populationsThe involvement of adipocyes in cutaneous wound healingContribution of adipocytes to dermal remodeling in radio-therapy treated skinBioinformatic approaches to human skin burn assessmentCurrent ProjectsCellular and molecular control of regulation of melanin distribution in skinImpact of glucose metabolism in cutaneous fibroblast cell populationsThe involvement of adipocyes in cutaneous wound healingContribution of adipocytes to dermal remodeling in radio-therapy treated skinBioinformatic approaches to human skin burn assessmentResearch CollaborationsInternal:Andrew Wilson: Archaeological Sciences. To exploit hair fibre as a bio-resource in forensic and archaeological sciences. Colin Grant & Pete Twigg: Medical Engineering. AFM and skin structure ExternalRalf Paus (University of Manchester); Rudi Wiesner (University of Cologne);Thomas Reinheckel (University of Freiburg);Andres Ruiz-Linares (UCL);Research CollaborationsInternal:Andrew Wilson: Archaeological Sciences. To exploit hair fibre as a bio-resource in forensic and archaeological sciences. Colin Grant & Pete Twigg: Medical Engineering. AFM and skin structure ExterResearch CollaborationsInternal:Andrew Wilson: Archaeological Sciences. To exploit hair fibre as a bio-resource in forensic and archaeological sciences. Colin Grant & Pete Twigg: Medical Engineering. AFM and skin structure ExternalRalf Paus (University of Manchester); Rudi Wiesner (University of Cologne);Thomas Reinheckel (University of Freiburg);Andres Ruiz-Linares (UCL);