FOXL1 antibody - N-terminal region (ARP32303_T100)

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292.11 €

Known as:: FOXL1 (anti-) - N-terminal region (ARP32303_T100)
Catalog number:: arp32303_t100
Product Quantity:: USD
Category:: -
Supplier:: Aviva Systems Biology
Gene target:: FOXL1 antibody - N-terminal region (ARP32303_T100)

Related genes to: FOXL1 antibody - N-terminal region (ARP32303_T100)

Gene:: FOXL1 ^{NIH gene}
Name:: forkhead box L1
Previous symbol:: FKHL11
Synonyms:: FREAC7, FKH6
Chromosome:: 16q24.1
Locus Type:: gene with protein product
Date approved:: 1995-06-05
Date modifiied:: 2016-10-05

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Integrating Multi-omics, Mendelian Randomization, and Experimental Validation to Unveil the Role of Traditional Chinese Medicine in Postmenopausal Osteoporosis.
Postmenopausal Osteoporosis (PMOP) is an age-related disease prevalent among elderly women, characterized by decreased bone density and increased fracture risk. This study investigates the mechanisms of traditional Chinese medicine (TCM) in treating PMOP. - Source: PubMed
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Characterization of Forkhead Box Transcription Factor () in Sex Differentiation of Chinese Tongue Sole ().
Chinese tongue sole () is an important mariculture product in northern China, exhibiting significant sexual dimorphism: females grow 2-4 times faster than males and ultimately attain much greater body weights. As a well-known transcription factor crucial for regulating sex differentiation, has been characterized in various mammals. Herein, we identified and characterized three genes, , and . Three genes exhibited a gonad-biased expression pattern, where showed higher expression in ovary than in testis, while and exhibited higher expression in testis. All genes were detected in testes and ovaries by ISH; / were expressed in oocytes and sperm, and in granulosa cells and sperm. Overexpression of in testicular cells led to KEGG enrichment in DNA repair, MAPK, FOXO and progesterone-mediated oocyte maturation pathways. In tongue sole testicular cell line, knockdown of and resulted in upregulation of multiple male-related genes. In contrast, knockdown of led to decreased expression of aromatase genes and increased expression of , indicating that is more closely associated with female differentiation and maintenance. Our study investigated the functions of the gene family in teleosts and offers valuable insights into their role in sex differentiation and gonadal maintenance in teleost fish. - Source: PubMed
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Yan HaipengWang LijunSun XuexueHe MingyueYang YingmingMeng ZhenLi XihongWang NaDong ZhongdianXu Wenteng
Villification of the intestinal epithelium is driven by Foxl1 through activation of PDGFRα and BMPs.
The primitive gut tube of mammals initially forms as a simple cylinder consisting of the endoderm-derived, pseudostratified epithelium and the mesoderm-derived surrounding mesenchyme. During mid-gestation, a dramatic transformation occurs in which the epithelium is both restructured into its final cuboidal form and simultaneously folded and refolded to create intestinal villi and intervillus regions. Here, we show that the mesenchymal winged helix transcription factor Foxl1, itself induced by epithelial hedgehog signaling, controls villification by activating BMP and PDGFRα and the planar cell polarity factor Fat4 in epithelial-adjacent telocyte progenitors either directly or indirectly. In the absence of Foxl1-dependent mesenchymal signaling, villus formation and the separation of epithelial cells into mitotic intervillus and postmitotic villus are delayed, and the differentiation of secretory progenitors temporarily blocked. Thus, Foxl1 orchestrates key events during the epithelial transition of the fetal mammalian gut. - Source: PubMed
Publication date: 2026/02/24
Zhu GuoliRozenberg GalinaLahori DeekshaSchug JonathanTigue MarkCheng LanBatmanov KirillKaestner Klaus H

FOXL1 antibody - N-terminal region (ARP32303_T100)

Related genes to: FOXL1 antibody - N-terminal region (ARP32303_T100)

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Related articles to: FOXL1 antibody - N-terminal region (ARP32303_T100)

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Identification and Validation of Oxidative Stress-Related Candidate Biomarkers for Preeclampsia via WGCNA and Single-Cell Transcriptomics.

Characterization of Forkhead Box Transcription Factor () in Sex Differentiation of Chinese Tongue Sole ().

Villification of the intestinal epithelium is driven by Foxl1 through activation of PDGFRα and BMPs.