March 2026 in “Animal Models and Experimental Medicine” Gorab deficiency speeds up skin aging by disrupting protein regulation and reducing collagen.
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March 2017 in “Scientific reports” Double-stranded RNA causes inflammation in hair follicle cells, which may help understand and treat alopecia areata.
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July 2018 in “Biochimica et Biophysica Acta (BBA) - Molecular Cell Research” Mice studies show that Protein Phosphatase 2A is crucial for cell growth, development, and disease prevention.
December 2025 in “Doğu Fen Bilimleri Dergisi” Vimentin, desmin, and laminin help maintain rat skin structure.
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June 2019 in “BMC genomics” Non-coding RNAs help control hair growth in cashmere goats.
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August 2008 in “Human molecular genetics online/Human molecular genetics” A position effect on the TRPS1 gene causes excessive hair growth in humans and mice.
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January 2021 in “BMC Genomics” Higher hair follicle density leads to more wool in rabbits, influenced by specific genes and lncRNAs.
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January 2004 in “Adelaide Research & Scholarship (AR&S) (University of Adelaide)” SPARC likely aids in tissue remodeling during the hair cycle, not in starting new hair growth phases.
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January 2023 in “Cancer Research” AMPK activation may reduce melanoma risk in red-haired individuals.
May 2017 in “bioRxiv (Cold Spring Harbor Laboratory)” The peach gene pCTG134 helps control the interaction between auxin and ethylene hormones during fruit ripening.
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September 2020 in “Journal of Dermatological Science” The gene LRRC15 is more active in balding areas of the scalp compared to non-balding areas.
September 2025 in “Journal of Medicinal Chemistry” AR-27 E-Chol siRNA can effectively regrow hair by reducing androgen receptor gene activity.
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May 2018 in “The Plant Cell” ERULUS is crucial for root hair growth by controlling calcium levels.
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February 2011 in “Cell” Nephronectin helps attach muscle cells to hair follicles.
June 2023 in “International Journal of Research in Dermatology” Certain gene variations are linked to severe acne in Egyptian patients and could guide treatment choices.
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January 2018 in “Scientific Reports” Non-immune factors play a significant role in alopecia areata.
February 2024 in “Experimental Dermatology” IGFBP-rP1 could be a new treatment for a common type of hair loss.
Elastin-like recombinamers show promise for better wound healing and skin regeneration.
September 2025 in “Animals” Key proteins and pathways are crucial for wool fineness, but more research is needed.
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May 2025 in “Cell Reports Medicine” RSPO1 could help create new diabetes treatments by increasing pancreatic β cells.
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July 2021 in “UNC Libraries” Mutations at Val-889 and Arg-752 disrupt key interactions in androgen receptor dimerization.
March 2025 in “SKIN The Journal of Cutaneous Medicine” Certain patient characteristics can help predict hair regrowth success with ritlecitinib in alopecia areata.
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November 2025 in “Aging Cell” EDA2R is a key gene linked to ageing and diseases, and targeting it may help treat conditions like hair loss and chronic diseases.
October 2025 in “Advanced Materials” New lipid/fiber microplexes improve mRNA therapy for degenerative diseases by enhancing cell function and treatment effectiveness.
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September 2014 in “BMC genomics” Different hair types in mammals are linked to variations in specific protein genes, with changes influenced by their living environments.
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October 2021 in “Orphanet journal of rare diseases” Patients with RASopathies are at risk for autoimmune disorders and should be routinely screened.
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November 2019 in “The Plant Cell” AtZP1 protein stops root hair growth in plants by blocking certain genes.
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December 2016 Researchers created a model to understand heart aging, highlighting key genes and pathways, and suggesting miR-208a as a potential heart attack biomarker.