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Enhancers and super-enhancers are key in controlling specific gene activity and can play a role in cancer development.

Certain long non-coding RNAs are important for controlling hair growth cycles in sheep.

Foxn1 gene regulation is crucial for thymus development but not for hair growth.

Liposomes show promise for delivering CRISPR for gene editing but face challenges like delivery efficiency and safety concerns.

Super-enhancers controlled by pioneer factors like SOX9 are crucial for stem cell adaptability and identity.

Hairless mammals evolved quickly in both gene and non-gene areas related to skin and hair.

The TGM3 gene's promoter region is key for skin and hair cell function and may aid gene therapy.

Aromatase gene variation may increase female hair loss risk.

The research suggests that autophagy-related genes might play a role in causing alopecia areata.

Blood tests can help understand the genetic differences in people with alopecia areata, including how severe it is and if it's inherited.

Genetic variation in the androgen receptor gene mainly causes early-onset hair loss, with maternal inheritance playing a key role.

The protein StAR is found in 17 different organs and can affect hair loss and brain functions, but its full role is not yet fully understood.

Regulatory T cells are essential for normal and improved wound healing in mice.

A new gene, mrp4, is found in mice and may play a unique role in hair follicle development in tails and ears.

A new mutation in the hairless gene causes hair loss and skin wrinkling in mice.

Researchers created a model to understand heart aging, highlighting the role of microRNAs and identifying key genes and pathways involved.

MOF controls key genes for skin development by regulating mitochondrial and ciliary functions.

MOF controls skin development by regulating genes for mitochondria and cilia.

ATP-dependent chromatin-remodeling complexes are crucial for gene regulation, cell differentiation, and organ development in mammals.

Msx and Dlx genes are crucial for development, controlling cell behaviors like growth and differentiation through their roles as gene regulators.

A position effect on the TRPS1 gene causes excessive hair growth in humans and mice.

ELL is crucial for gene transcription related to skin cell growth.

The research found that the gene activity in mouse skin stem cells changes significantly as they age.

The research provides a gene-based framework for hair biology, highlighting the Hippo pathway's importance and suggesting links between hair disorders, cancer pathways, and the immune system.

Differences in gene expression and methylation patterns found in AGA patients suggest potential targets for future treatments.

The congress highlighted new gene therapy techniques and cell transplantation methods for treating diseases.

The Foxn1 gene mutation causes hairlessness and immune system issues, and understanding it could lead to hair growth disorder treatments.

EDA2R gene linked to hair loss.

Hair growth is controlled by specific gene clusters and proteins, and cysteine affects hair gene expression in sheep.

A gene in Arabidopsis thaliana, AtPRPL1, affects root hair length but not cell wall composition.