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February 2025 in “Nature Communications” A new neural network helps identify key regulators in cell changes, aiding in understanding diseases and finding new treatments.
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January 2021 in “Genes” Twelve key genes may improve cashmere production by influencing hair follicle cycles.
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October 2017 in “Stem Cell Reports” Alkaline Ceramidase 1 prevents early hair loss in mice by keeping hair follicle stem cells balanced.
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May 2018 in “Molecular Medicine Reports” miR‑339‑5p can slow down hair follicle stem cell differentiation by targeting DLX5.
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October 2021 in “Signal Transduction and Targeted Therapy” Stress hormone corticosterone suppresses hair growth by affecting stem cell activity and Gas6 protein expression.
March 2026 in “Adipocyte” Spt4 and Spt6 are essential for fat cell development.
September 2025 in “OPAL (Open@LaTrobe) (La Trobe University)” The treatments stopped hair regrowth in mice.
March 2025 in “Frontiers in Plant Science” The ZmNF-YC1–ZmAPRG pathway in maize improves phosphorus efficiency and grain yield, suggesting it as a target for breeding better crops.
July 2024 in “International Journal of Molecular Sciences” MicroRNAs could help assess and manage multiple chronic diseases.
April 2026 in “The FASEB Journal” Exosomal miR-199a-3p from dermal papilla cells helps control hair color by affecting melanocytes.
Par3–mInsc and Gαi3 work together to ensure proper cell division orientation in skin development.
Human hair color is determined by melanin types and genetic factors.
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September 2008 in “Nutrition reviews” Vitamin D receptor interacts with certain dietary components to help prevent diseases and regulate hair growth.
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May 2023 in “Journal of Cancer Research and Clinical Oncology” CRISPR/Cas systems show promise for cancer treatment by targeting miRNAs, but delivery and specificity challenges remain.
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October 2023 in “Frontiers in physiology” ceRNA networks offer potential treatments for skin aging and wound healing.
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July 2024 in “International Journal of Molecular Sciences” MicroRNA-181a slows sheep hair growth by targeting GNAI2 and affecting a key growth pathway.
February 2026 in “Applied Biosciences” The study found potential new DNA patterns in fertility genes, but further testing is needed.
January 2025 in “BioMed Research International” Targeting DNA methylation can help treat skin disorders and cancers.
January 2016 in “Munich Personal RePEc Archive (Ludwig Maximilian University of Munich)” A new method using gold nanoshells and infrared light effectively delivers siRNA to cancer and stem cells with precision and minimal damage.
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December 2018 in “Plant Science” Elevated CO2 can lessen the negative impact of water shortage on soybean roots and affects specific genes.
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January 2009 in “Nature” Lgr5 and the vitamin D receptor are key in controlling skin inflammation and tumor risk in mice.
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May 2008 in “Cancer Science” Cancer cells often have more copies of TERT and TERC genes, which helps them grow and could affect patient outcomes.
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July 2010 in “Genes & development” Notch/CSL signaling controls hair follicle differentiation through Wnt5a and FoxN1.
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March 2021 in “Nature” Stress hormone corticosterone blocks a growth factor to slow down hair stem cell activity and hair growth.
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August 2022 in “Animals” miR-144-y and FOXO3 play key roles in skin and feather development in Zhedong White geese.
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October 2015 in “BMC Genomics” Chicken feather growth involves specific genes and shares similarities with hair development.
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January 2017 in “Journal of Investigative Dermatology” The Msi2 protein helps keep hair follicle stem cells inactive, controlling hair growth and regeneration.
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January 2014 in “Frontiers in physiology” Understanding and tracking our body's natural daily rhythms could help improve heart health.
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August 2019 in “BMC Genetics” miR-148a and miR-10a affect hair growth in Hu sheep.
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February 2019 in “Journal of steroid biochemistry and molecular biology/The Journal of steroid biochemistry and molecular biology” AKR1D1 controls glucocorticoid levels and receptor activity in liver cells.