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Melatonin helps broccoli roots produce anti-cancer compounds by controlling nitric oxide and hydrogen peroxide levels.

Specific miRNA profiles can help diagnose and treat alopecia areata.

Gut bacteria pathways may help treat hair loss in obese people.

Paternal drug exposure can harm fertility, pregnancy outcomes, and offspring health, with specific drugs linked to various reproductive issues.

Immune system issues may contribute to female pattern hair loss.

Bioengineered skin models help reduce animal testing and advance research in cosmetics and skin disease.

Higher miR-34a levels and the A variant of the MIR-34A gene are linked to increased risk and severity of alopecia areata.

A new tool accurately identifies human cornea cell states and key factors.

Managing inflammation and using vitamins can improve PRP therapy for better hair growth.

Botryococcus terribilis and its compounds may promote hair growth and improve hair health.

Periplaneta americana extract promotes hair growth and is safe for treating hair loss.

Cactus extract from Notocactus ottonis may help promote hair growth.

Goat skin adapts to seasonal changes through genes that respond to daylight length, affecting hormone levels and potentially making skin cells light-sensitive.

Autofluorescence can sort plant cells without labeling.

Skin cells and certain hair follicle areas produce hemoglobin, which may help protect against oxidative stress like UV damage.

The research aims to better understand hair follicle regulation and find new treatments for hair loss.

Acne patients have higher skin mTORC1 activity, which is reduced by isotretinoin treatment.

miR-144-y and FOXO3 play key roles in skin and feather development in Zhedong White geese.

Mouse models are essential for studying and improving genetic traits in agriculture.

Different miRNAs in Rex rabbit skin affect cell processes and hair growth.

Existing drugs, including a blood pressure medication, show promise as new treatments for influenza.

PandaOmics uses AI to find new disease treatment targets and biomarkers.

Four specific genes are linked to keloid formation and could be potential treatment targets.

Understanding genetic variations in mice is crucial for studying skin, hair, or nail abnormalities.

Ancestry affects skin healing, with non-Hispanic Black patients showing more healing-related fibroblasts than White patients.

Certain skin proteins can form anchoring structures without the protein AMACO.

PLIN2 affects hair growth in cashmere goats, potentially improving cashmere quality.

Androgenetic alopecia involves immune cell disruptions, especially increased CD4+ T cells around hair follicles.

Multi-omics techniques help understand the molecular causes of androgenetic alopecia.

DNA changes in tetraploid wheat improve root growth and nitrogen use.