The in ovo injection of methionine improves intestinal cell proliferation and differentiation in chick embryos by activating the JAK2/STAT3 signaling pathway
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[1] X. Wang,et al. Methionine improves feather follicle development in chick embryos by activating Wnt/β-catenin signaling , 2020, Poultry science.
[2] M. J. Chen,et al. The Wnt/β-catenin signaling pathway is involved in regulating feather growth of embryonic chicks , 2020, Poultry science.
[3] Hui-chao Yan,et al. Zinc L-Aspartate enhances intestinal stem cell activity to protect the integrity of the intestinal mucosa against deoxynivalenol through activation of the Wnt/β-catenin signaling pathway. , 2020, Environmental pollution.
[4] E. Chastre,et al. Rac1 Signaling: From Intestinal Homeostasis to Colorectal Cancer Metastasis , 2020, Cancers.
[5] F. Xing,et al. Xiaozhang Tie Improves Intestinal Motility in Rats With Cirrhotic Ascites by Regulating the Stem Cell Factor/c-kit Pathway in Interstitial Cells of Cajal , 2020, Frontiers in Pharmacology.
[6] Mitchell A. Kuss,et al. Repair and regeneration of small intestine: A review of current engineering approaches. , 2020, Biomaterials.
[7] X. Wang,et al. Targeted disruption of TORC1 retards young squab growth by inhibiting the synthesis of crop milk protein in breeding pigeon (Columba livia) , 2019, Poultry science.
[8] Jianguo Tang,et al. Farnesol contributes to intestinal epithelial barrier function by enhancing tight junctions via the JAK/STAT3 signaling pathway in differentiated Caco-2 cells , 2019, Journal of Bioenergetics and Biomembranes.
[9] Chengbo Yang,et al. Methionine and its Hydroxyl Analogs Improve Stem Cell Activity to Eliminate Deoxynivalenol-Induced Intestinal Injury by Reactivating Wnt/β-catenin Signaling. , 2019, Journal of agricultural and food chemistry.
[10] S. Ryu,et al. Mechanisms regulating intestinal barrier integrity and its pathological implications , 2018, Experimental & Molecular Medicine.
[11] B. Wu,et al. Effect of methionine deficiency on oxidative stress and apoptosis in the small intestine of broilers. , 2018, Acta veterinaria Hungarica.
[12] M. Kimura,et al. Nutritional Control of Stem Cell Division through S-Adenosylmethionine in Drosophila Intestine. , 2018, Developmental cell.
[13] Haofei Liu,et al. Lactobacillus accelerates ISCs regeneration to protect the integrity of intestinal mucosa through activation of STAT3 signaling pathway induced by LPLs secretion of IL-22 , 2018, Cell Death & Differentiation.
[14] H. T. Park,et al. Akkermansia muciniphila-derived extracellular vesicles influence gut permeability through the regulation of tight junctions , 2018, Experimental & Molecular Medicine.
[15] X. Tong,et al. JAK2/STAT3 pathway is involved in the protective effects of epidermal growth factor receptor activation against cerebral ischemia/reperfusion injury in rats , 2018, Neuroscience Letters.
[16] Manasvi Shah,et al. JAK/STAT-1 Signaling Is Required for Reserve Intestinal Stem Cell Activation during Intestinal Regeneration Following Acute Inflammation , 2017, Stem cell reports.
[17] M. Shimizu,et al. Effect of essential amino acids on enteroids: Methionine deprivation suppresses proliferation and affects differentiation in enteroid stem cells. , 2017, Biochemical and biophysical research communications.
[18] A. Bousvaros,et al. Villin Immunohistochemistry Is a Reliable Method for Diagnosing Microvillus Inclusion Disease , 2015, The American journal of surgical pathology.
[19] Guoyao Wu,et al. Glutamine and intestinal barrier function , 2014, Amino Acids.
[20] H. Aburatani,et al. Methionine metabolism regulates maintenance and differentiation of human pluripotent stem cells. , 2014, Cell metabolism.
[21] David Artis,et al. Intestinal epithelial cells: regulators of barrier function and immune homeostasis , 2014, Nature Reviews Immunology.
[22] S. Bhanja,et al. Prospects of in ovo feeding and nutrient supplementation for poultry: the science and commercial applications--a review. , 2013, Journal of the science of food and agriculture.
[23] Shuji Ogino,et al. STAT3 Expression, Molecular Features, Inflammation Patterns, and Prognosis in a Database of 724 Colorectal Cancers , 2011, Clinical Cancer Research.
[24] N. Everaert,et al. Delay in feed access and spread of hatch: importance of early nutrition , 2010 .
[25] Hua Yu,et al. STATs in cancer inflammation and immunity: a leading role for STAT3 , 2009, Nature Reviews Cancer.
[26] B. Edgar,et al. Cytokine/Jak/Stat Signaling Mediates Regeneration and Homeostasis in the Drosophila Midgut , 2009, Cell.
[27] S. Qiao,et al. Amino acids and gut function , 2009, Amino Acids.
[28] O. Crasta,et al. Expression profiling of the solute carrier gene family in chicken intestine from the late embryonic to early post-hatch stages. , 2008, Animal genetics.
[29] E. Gilbert,et al. Molecular, Cellular, and Developmental Biology Developmental Regulation of Nutrient Transporter and Enzyme Mrna Abundance in the Small Intestine of Broilers 1 , 2022 .
[30] E. Moran. Nutrition of the developing embryo and hatchling. , 2007, Poultry science.
[31] B. Southwell. Staging of intestinal development in the chick embryo. , 2006, The anatomical record. Part A, Discoveries in molecular, cellular, and evolutionary biology.
[32] A. Lemme,et al. Responses of growing broilers to diets with increased sulfur amino acids to lysine ratios at two dietary protein levels. , 2004, Poultry science.
[33] Y. Ohta,et al. Effect of amino acid injection in broiler breeder eggs on embryonic growth and hatchability of chicks. , 1999, Poultry science.