research MiR-23b and miR-133 cotarget TGFβ2/NOTCH1 in dermal fibroblasts and affect hair follicle development in sheep
Two microRNAs affect hair follicle development in sheep by targeting specific genes.
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research Botulinum toxin type A alleviates androgenetic alopecia by inhibiting apoptosis of dermal papilla cells via targeting circ_0135062/miR-506-3p/Bax axis
Botulinum toxin type A helps treat hair loss by stopping cell death in hair follicles through a process involving certain non-coding RNAs and a protein called Bax.
research miR-29a-5p Inhibits Prenatal Hair Placode Formation Through Targeting EDAR by ceRNA Regulatory Network
miR-29a-5p prevents the formation of early hair structures by targeting a gene important for hair growth and is regulated by a complex network involving lncRNA627.1.
research The Enticing Path of miR Therapeutics: Difficult but Not without Prospects
Developing microRNA-based treatments is hard but has potential.
research Neural progenitor cell-derived nanovesicles promote hair follicle growth via miR-100
Neural cell nanovesicles help hair growth by activating key signals.
research Neural progenitor cell-derived nanovesicles promote hair follicle growth via miR-100
Neural progenitor cell-derived nanovesicles help hair growth by activating a key signaling pathway.
research 1367 The protective role of miR-486 for alopecia areata
miR-486 may help prevent hair loss in alopecia areata.
research Adipose Mesenchymal Stromal Cell-Derived Exosomes Carrying MiR-122-5p Antagonize the Inhibitory Effect of Dihydrotestosterone on Hair Follicles by Targeting the TGF-β1/SMAD3 Signaling Pathway
ADSC-Exos with miR-122-5p can help treat hair loss by promoting hair growth.
research Up-regulation of androgen receptor by heat shock protein 27 and miR-1 induces pathogenesis of androgenic alopecia.
Higher levels of heat shock protein 27 and lower levels of miR-1 can increase AR levels, leading to hair loss in men.
research Ar/miR-221/IGF-1 Pathway Mediates the Pathogenesis of Androgenetic Alopecia
The Ar/miR-221/IGF-1 pathway is involved in male pattern baldness, with miR-221 potentially being a new target for treatment.
research The functions of ocu-miR-205 in regulating hair follicle development in Rex rabbits
Ocu-miR-205 helps control hair growth in Rex rabbits by affecting cell processes and signaling pathways.
research Chi-miR-30b-5p inhibits dermal papilla cells proliferation by targeting CaMKIIδ gene in cashmere goat
A specific microRNA, chi-miR-30b-5p, slows down the growth of hair-related cells by affecting the CaMKIIδ gene in cashmere goats.
research Comprehensive Transcriptome Analysis of Hair Follicle Morphogenesis Reveals That lncRNA-H19 Promotes Dermal Papilla Cell Proliferation through the Chi-miR-214-3p/β-Catenin Axis in Cashmere Goats
The research found that the molecule lncRNA-H19 helps hair follicle cells grow by affecting certain cell pathways in cashmere goats.
research LncRNA-599547 contributes the inductive property of dermal papilla cells in cashmere goat through miR-15b-5p/Wnt10b axis
A specific RNA in cashmere goats helps improve hair growth by interacting with certain molecules.
research LncRNA MSTRG.14227.1 regulates the morphogenesis of secondary hair follicles in Inner Mongolia cashmere goats via targeting ADAMTS3 by sponging chi-miR-433
LncRNA MSTRG.14227.1 hinders hair follicle development in cashmere goats, affecting cashmere quality.
research The functions of ocu-miR-205 in regulating hair follicle development in Rex rabbits
Ocu-miR-205 affects hair density in Rex rabbits by promoting cell changes and influencing hair follicle phases.
research The functions of ocu-miR-205 in regulating hair follicle development in Rex rabbits
Ocu-miR-205 affects hair density in Rex rabbits by promoting cell changes and influencing hair follicle phases.
research L-borneol regulates rno-miR-127/ PODXL2 to promote hair follicle stem cells to repair skin wounds
L-borneol helps skin wound healing by promoting stem cell differentiation.
research Exploring the effect of hsa-miR-19b-3p on IL-1R1 expression and serum levels in alopecia areata
Higher levels of IL-1R1 and hsa-miR-19b-3p may help diagnose and predict alopecia areata severity.
research Correction to “the Role of Hsa‐miR‐193a‐5p as an Important Factor for Control of Inositol in Alopecia Areata”
Hsa-miR-193a-5p is important in alopecia areata by promoting inflammation and involving specific genes in hair and immune function.
research Hair Dermal papilla maintain its hair inducing characteristics via autocrine exosomal miR-23a-3p
Hair growth is maintained by specific cell signals.
research Exosomal miR-222-3p derived from dermal papilla cells inhibits melanogenesis in melanocytes by targeting SOX10 in rabbits
Exosomal miR-222-3p reduces melanin production in rabbits by targeting the SOX10 gene.
research The role of hsa‐miR‐193a‐5p as an important factor for control of inositol in alopecia areata
hsa-miR-193a-5p may help diagnose and treat alopecia areata.
research Identification and expression of the target gene SLC24A2 of oar-miR-377 and its novel SNPs effects on wool traits in sheep
The TT genotype of a specific SNP in sheep is linked to better wool quality.
research Identification and Expression of the Target Gene SLC24A2 of oar-miR-377 and Its Novel SNPs Effects on Wool Traits in Sheep
A specific genetic variation affects wool quality in sheep.
research The functions of ocu-miR-205 in regulating hair follicle development in Rex rabbits
Ocu-miR-205 affects hair density in Rex rabbits by influencing cell processes and signaling pathways.
research The functions of ocu-miR-205 in regulating hair follicle development in Rex rabbits
ocu-miR-205 affects hair density in Rex rabbits by promoting cell changes that lead to more hair follicles entering resting phases.
research The functions of ocu-miR-205 in regulating hair follicle development in Rex rabbits
ocu-miR-205 affects hair density in Rex rabbits by altering hair follicle growth and signaling pathways.
research HOTTIP Mediated Therapy Resistance in Glioma Cells Involves Regulation of EMT-Related miR-10b
HOTTIP and miR-10b contribute to glioma therapy resistance by affecting cell behavior, suggesting they could be targets for treatment.