Papers associated with mmp1

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	Early life exposure to perfluorooctanesulfonate (PFOS) impacts vital biological processes in Xenopus laevis: Integrated morphometric and transcriptomic analyses., Ismail T, Lee HK, Lee H, Kim Y, Kim E, Lee JY, Kim KB, Ryu HY, Cho DH, Kwon TK, Park TJ, Kwon T, Lee HS, Lee HS., Ecotoxicol Environ Saf. January 1, 2024; 269 115820.
	Thyroid hormone receptor knockout prevents the loss of Xenopus tail regeneration capacity at metamorphic climax., Wang S, Shibata Y, Fu L, Tanizaki Y, Luu N, Bao L, Peng Z, Shi YB, Shi YB., Cell Biosci. February 23, 2023; 13 (1): 40.
	The myeloid lineage is required for the emergence of a regeneration-permissive environment following Xenopus tail amputation., Aztekin C, Hiscock TW, Butler R, De Jesús Andino F, Robert J, Gurdon JB, Jullien J., Development. February 5, 2020; 147 (3):
	Comprehensive RNA-Seq analysis of notochord-enriched genes induced during Xenopus tropicalis tail resorption., Nakajima K, Tanizaki Y, Luu N, Zhang H, Shi YB, Shi YB., Gen Comp Endocrinol. February 1, 2020; 287 113349.
	The role of nitric oxide during embryonic wound healing., Abaffy P, Tomankova S, Naraine R, Kubista M, Sindelka R., BMC Genomics. November 6, 2019; 20 (1): 815.
	Adaptive correction of craniofacial defects in pre-metamorphic Xenopus laevis tadpoles involves thyroid hormone-independent tissue remodeling., Pinet K, Deolankar M, Leung B, McLaughlin KA., Development. July 22, 2019; 146 (14):
	Transcriptome profiling reveals male- and female-specific gene expression pattern and novel gene candidates for the control of sex determination and gonad development in Xenopus laevis., Piprek RP, Damulewicz M, Tassan JP, Kloc M, Kubiak JZ., Dev Genes Evol. May 1, 2019; 229 (2-3): 53-72.
	Reduced FRG1 expression promotes prostate cancer progression and affects prostate cancer cell migration and invasion., Tiwari A, Mukherjee B, Hassan MK, Pattanaik N, Jaiswal AM, Dixit M., BMC Cancer. April 11, 2019; 19 (1): 346.
	Stage-dependent cardiac regeneration in Xenopus is regulated by thyroid hormone availability., Marshall LN, Vivien CJ, Girardot F, Péricard L, Scerbo P, Palmier K, Demeneix BA, Coen L., Proc Natl Acad Sci U S A. February 26, 2019; 116 (9): 3614-3623.
	Upregulation of matrix metalloproteinase triggers transdifferentiation of retinal pigmented epithelial cells in Xenopus laevis: A Link between inflammatory response and regeneration., Naitoh H, Suganuma Y, Ueda Y, Sato T, Hiramuki Y, Fujisawa-Sehara A, Taketani S, Araki M., Dev Neurobiol. September 1, 2017; 77 (9): 1086-1100.
	Peptoid-Substituted Hybrid Antimicrobial Peptide Derived from Papiliocin and Magainin 2 with Enhanced Bacterial Selectivity and Anti-inflammatory Activity., Shin A, Lee E, Jeon D, Park YG, Bang JK, Park YS, Shin SY, Kim Y., Biochemistry. June 30, 2015; 54 (25): 3921-31.
	Effects of fluoride on expression of bone-specific genes in developing Xenopus laevis larvae., Nair M, Belak ZR, Ovsenek N., Biochem Cell Biol. August 1, 2011; 89 (4): 377-86.
	Matrix metalloproteinase expression during blastema formation in regeneration-competent versus regeneration-deficient amphibian limbs., Santosh N, Windsor LJ, Mahmoudi BS, Li B, Zhang W, Chernoff EA, Rao N, Stocum DL, Song F., Dev Dyn. May 1, 2011; 240 (5): 1127-41.
	Soluble factors from IL-1β-stimulated astrocytes activate NR1a/NR2B receptors: implications for HIV-1-induced neurodegeneration., Jing T, Wu L, Borgmann K, Surendran S, Ghorpade A, Liu J, Xiong H., Biochem Biophys Res Commun. November 12, 2010; 402 (2): 241-6.
	Acute atrazine exposure disrupts matrix metalloproteinases and retinoid signaling during organ morphogenesis in Xenopus laevis., Lenkowski JR, McLaughlin KA., J Appl Toxicol. August 1, 2010; 30 (6): 582-9.
	Gene expression profiles of lens regeneration and development in Xenopus laevis., Malloch EL, Perry KJ, Fukui L, Johnson VR, Wever J, Beck CW, King MW, King MW, Henry JJ., Dev Dyn. September 1, 2009; 238 (9): 2340-56.
	Molecular features of thyroid hormone-regulated skin remodeling in Xenopus laevis during metamorphosis., Suzuki K, Machiyama F, Nishino S, Watanabe Y, Kashiwagi K, Kashiwagi A, Yoshizato K., Dev Growth Differ. May 1, 2009; 51 (4): 411-27.
	Genome-wide identification of Xenopus matrix metalloproteinases: conservation and unique duplications in amphibians., Fu L, Das B, Mathew S, Shi YB., BMC Genomics. February 17, 2009; 10 81.
	Cranial osteogenesis and suture morphology in Xenopus laevis: a unique model system for studying craniofacial development., Slater BJ, Liu KJ, Kwan MD, Quarto N, Longaker MT., PLoS One. January 1, 2009; 4 (1): e3914.
	Three matrix metalloproteinases are required in vivo for macrophage migration during embryonic development., Tomlinson ML, Garcia-Morales C, Abu-Elmagd M, Wheeler GN., Mech Dev. January 1, 2008; 125 (11-12): 1059-70.
	Overexpression of matrix metalloproteinases leads to lethality in transgenic Xenopus laevis: implications for tissue-dependent functions of matrix metalloproteinases during late embryonic development., Damjanovski S, Amano T, Li Q, Pei D, Shi YB, Shi YB., Dev Dyn. May 1, 2001; 221 (1): 37-47.
	Differential regulation of three thyroid hormone-responsive matrix metalloproteinase genes implicates distinct functions during frog embryogenesis., Damjanovski S, Puzianowska-Kuznicka M, Ishuzuya-Oka A, Shi YB, Shi YB., FASEB J. March 1, 2000; 14 (3): 503-10.
	Spatial and temporal regulation of collagenases-3, -4, and stromelysin -3 implicates distinct functions in apoptosis and tissue remodeling during frog metamorphosis., Damjanovski S, Ishizuya-Oka A, Shi YB, Shi YB., Cell Res. June 1, 1999; 9 (2): 91-105.
	Identification and characterization of a novel collagenase in Xenopus laevis: possible roles during frog development., Stolow MA, Bauzon DD, Li J, Sedgwick T, Liang VC, Sang QA, Shi YB, Shi YB., Mol Biol Cell. October 1, 1996; 7 (10): 1471-83.

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