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NADPH oxidase 4 is key for stem cell activity and growth under low oxygen.

C-reactive protein helps monocytes stick to blood vessel cells by causing oxidative stress.

Tanshinone compounds can help prevent hair loss caused by testosterone.

1′S-1′-Acetoxychavicol acetate may help treat hair loss by reducing oxidative stress.

ACA from Alpinia galanga may prevent testosterone-related hair loss.

Low oxygen conditions improve how well certain stem cells from embryos can make hair grow longer and faster.

Finasteride effectively blocks enzyme causing male pattern baldness.

Reactive oxygen species and calcium create a feedback loop that shapes root hair cells.

Two enzymes regulate androgen receptor activity, affecting treatments for androgen insufficiency and benign prostatic hyperplasia.

Finasteride helps treat hair loss and prostate enlargement by blocking a specific enzyme.

Eupafolin nanoparticles help protect skin cells from damage caused by air pollution.

Low-dose UVB light improves hair growth effects of certain stem cells by increasing reactive oxygen species.

pH, calcium, and reactive oxygen species regulate plant cell growth, with key roles for NADPH oxidases and plasma membrane H+-ATPases.

Finasteride irreversibly affects human steroid 5α-reductase 2, providing insight into its catalytic mechanism and disease-related mutations.

Quercitrin may help treat hair loss by promoting hair growth and improving cell health.

Low oxygen levels can make hair-growing cells better at growing hair through a process involving reactive oxygen species.

Quaternary ammonium iminofullerenes help maize roots grow better under stress by reducing oxidative damage.

Autofluorescence in hair follicle stem cells can interfere with studies but may help isolate these cells.

Exosomes help nerve fibers grow by affecting specific cell signaling pathways.

Saw palmetto extract can block the enzyme that converts testosterone in pig prostate cells.

The enzyme system in hair follicles is similar to the liver's and is affected by certain inhibitors.

4-O-Methylhonokiol helps protect skin cells from growth-stopping effects of a protein by regulating growth-related pathways.

The research helps understand how finasteride works and aids drug development.

New SRD5A2 variants may disrupt protein function, aiding diagnosis and treatment of related disorders.

The P133R mutation in AKR1D1 enzyme causes harmful bile acid buildup, explaining related health issues.

The new compound is a promising, less toxic alternative to finasteride for treating prostate issues.

The research identified and described a gene important for hormone conversion in endangered catfish, which varies in activity during different reproductive stages and after hormone treatment.

The research gives new understanding on how human steroid 5α-reductases work and how drugs like finasteride inhibit them, which could help in creating new drugs.

The structure of SRD5A reveals how it reduces steroids, aiding drug design for related health conditions.

PEDF reduces oxidative damage and supports stem cells.