Papers associated with mmp7

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	Physical heterogeneity of hatching enzyme of the sea urchin, Strongylocentrotus purpuratus., Barrett D, Edwards BF, Wood DB, Lane DJ., Arch Biochem Biophys. March 1, 1971; 143 (1): 261-8.
	Hatching enzyme of the sea urchin Strongylocentrotus purpuratus., Barrett D, Edwards BF., Methods Enzymol. January 1, 1976; 45 354-73.
	Purification and characterization of hatching enzyme of Strongylocentrotus intermedius., Takeuchi K, Yokosawa H, Hoshi M., Eur J Biochem. October 1, 1979; 100 (1): 257-65.
	Expression of a cloned adenovirus gene is inhibited by in vitro methylation., Vardimon L, Kressmann A, Cedar H, Maechler M, Doerfler W., Proc Natl Acad Sci U S A. February 1, 1982; 79 (4): 1073-7.
	Egg capsules of a parasitic turbellarian flatworm: ultrastructure of hatching sutures., Shinn GL, Cloney RA., J Morphol. April 1, 1986; 188 (1): 15-28.
	Characterization of hatching-associated changes in the sea urchin fertilization envelope., Uher VI, Carroll EJ., Gamete Res. March 1, 1987; 16 (3): 267-279.
	Studies on Holothuria polii (Echinodermata) coelomocyte lysate. II. Isolation of coelomocyte hemolysins., Canicatti C, Ciulla D., Dev Comp Immunol. January 1, 1988; 12 (1): 55-63.
	Evidence that hatching enzyme of the sea urchin Strongylocentrotus purpuratus is a chymotrypsin-like protease., Post LL, Schuel R, Schuel H., Biochem Cell Biol. November 1, 1988; 66 (11): 1200-9.
	Purification and characterization of the sea urchin embryo hatching enzyme., Lepage T, Gache C., J Biol Chem. March 25, 1989; 264 (9): 4787-93.
	Pulse treatment of sea urchin embryos with A23187 blocks their hatching out., Fujiwara A, Yasumasu I., Rouxs Arch Dev Biol. April 1, 1990; 199 (4): 212-218.
	Biosynthesis and secretion of the hatching enzyme during sea urchin embryogenesis., Roe JL, Lennarz WJ., J Biol Chem. May 25, 1990; 265 (15): 8704-11.
	Early expression of a collagenase-like hatching enzyme gene in the sea urchin embryo., Lepage T, Gache C., EMBO J. September 1, 1990; 9 (9): 3003-12.
	The specificity of sea urchin hatching enzyme (envelysin) places it in the mammalian matrix metalloproteinase family., Nomura K, Tanaka H, Kikkawa Y, Yamaguchi M, Suzuki N., Biochemistry. June 25, 1991; 30 (25): 6115-23.
	Spatial expression of the hatching enzyme gene in the sea urchin embryo., Lepage T, Sardet C, Gache C., Dev Biol. March 1, 1992; 150 (1): 23-32.
	Early mRNAs, spatially restricted along the animal-vegetal axis of sea urchin embryos, include one encoding a protein related to tolloid and BMP-1., Reynolds SD, Angerer LM, Palis J, Nasir A, Angerer RC., Development. March 1, 1992; 114 (3): 769-86.
	Selective inhibition of membrane fusion events in echinoderm gametes and embryos by halenaquinol sulfate., Ikegami S, Kajiyama N, Ozaki Y, Myotoishi Y, Miyashiro S, Takayama S, Kobayashi M, Kitagawa I., FEBS Lett. May 18, 1992; 302 (3): 284-6.
	Isolation of cDNAs for LCE and HCE, two constituent proteases of the hatching enzyme of Oryzias latipes, and concurrent expression of their mRNAs during development., Yasumasu S, Yamada K, Akasaka K, Mitsunaga K, Iuchi I, Shimada H, Yamagami K., Dev Biol. October 1, 1992; 153 (2): 250-8.
	Degradation of an extracellular matrix: sea urchin hatching enzyme removes cortical granule-derived proteins from the fertilization envelope., Mozingo NM, Hollar LR, Chandler DE., J Cell Sci. March 1, 1993; 104 ( Pt 3) 929-38.
	Stereo-specific inhibition of sea urchin envelysin (hatching enzyme) by a synthetic autoinhibitor peptide with a cysteine-switch consensus sequence., Nomura K, Suzuki N., FEBS Lett. April 19, 1993; 321 (1): 84-8.
	Structure of the sea urchin hatching enzyme gene., Ghiglione C, Lhomond G, Lepage T, Gache C., Eur J Biochem. February 1, 1994; 219 (3): 845-54.
	Selective inhibition of exoplasmic membrane fusion in echinoderm gametes with jaspisin, a novel antihatching substance isolated from a marine sponge., Ikegami S, Kobayashi H, Myotoishi Y, Ohta S, Kato KH., J Biol Chem. September 16, 1994; 269 (37): 23262-7.
	Sea urchin ovoperoxidase: solubilization and isolation from the fertilization envelope, some structural and functional properties, and degradation by hatching enzyme., Nomura K, Suzuki N., Arch Biochem Biophys. June 1, 1995; 319 (2): 525-34.
	Characterization of the SpHE promoter that is spatially regulated along the animal-vegetal axis of the sea urchin embryo., Wei Z, Angerer LM, Gagnon ML, Angerer RC., Dev Biol. September 1, 1995; 171 (1): 195-211.
	Cloning and characterization of cDNAs for matrix metalloproteinases of regenerating newt limbs., Miyazaki K, Uchiyama K, Imokawa Y, Yoshizato K., Proc Natl Acad Sci U S A. June 25, 1996; 93 (13): 6819-24.
	Sea urchin hatching enzyme (envelysin): cDNA cloning and deprivation of protein substrate specificity by autolytic degradation., Nomura K, Shimizu T, Kinoh H, Sendai Y, Inomata M, Suzuki N., Biochemistry. June 10, 1997; 36 (23): 7225-38.
	Characterization of a metalloproteinase: a late stage specific gelatinase activity in the sea urchin embryo., Robinson JJ., J Cell Biochem. September 1, 1997; 66 (3): 337-45.
	The SpHE gene is downregulated in sea urchin late blastulae despite persistence of multiple positive factors sufficient to activate its promoter., Wei Z, Kenny AP, Angerer LM, Angerer RC., Mech Dev. October 1, 1997; 67 (2): 171-8.
	Organization of the proximal promoter of the hatching-enzyme gene, the earliest zygotic gene expressed in the sea urchin embryo., Ghiglione C, Emily-Fenouil F, Lhomond G, Gache C., Eur J Biochem. December 1, 1997; 250 (2): 502-13.
	Cloning and characterization of a cDNA coding for Astacus embryonic astacin, a member of the astacin family of metalloproteases from the crayfish Astacus astacus., Geier G, Zwilling R., Eur J Biochem. May 1, 1998; 253 (3): 796-803.
	GSK3beta/shaggy mediates patterning along the animal-vegetal axis of the sea urchin embryo., Emily-Fenouil F, Ghiglione C, Lhomond G, Lepage T, Gache C., Development. July 1, 1998; 125 (13): 2489-98.
	Identification of a new sea urchin ets protein, SpEts4, by yeast one-hybrid screening with the hatching enzyme promoter., Wei Z, Angerer RC, Angerer LM., Mol Cell Biol. February 1, 1999; 19 (2): 1271-8.
	Dynamics of the endoplasmic reticulum and golgi apparatus during early sea urchin development., Terasaki M., Mol Biol Cell. March 1, 2000; 11 (3): 897-914.
	Structural and functional analysis of the Xestia c-nigrum granulovirus matrix metalloproteinase., Ko R, Okano K, Maeda S., J Virol. December 1, 2000; 74 (23): 11240-6.
	Bep4 protein is involved in patterning along the animal-vegetal axis in the Paracentrotus lividus embryo., Romancino DP, Montana G, Dalmazio S, Di Carlo M., Dev Biol. June 1, 2001; 234 (1): 107-19.
	Functional characterization of Ets-binding sites in the sea urchin embryo: three base pair conversions redirect expression from mesoderm to ectoderm and endoderm., Consales C, Arnone MI., Gene. April 3, 2002; 287 (1-2): 75-81.
	Impairing Otp homeodomain function in oral ectoderm cells affects skeletogenesis in sea urchin embryos., Cavalieri V, Spinelli G, Di Bernardo M., Dev Biol. October 1, 2003; 262 (1): 107-18.
	Methylation profile of P. lividus sea urchin genes during development., Piscopo A, Pulcrano G, Aniello F, Branno M, Fucci L., Ital J Biochem. December 1, 2003; 52 (4): 136-40.
	A glyphosate-based pesticide impinges on transcription., Marc J, Le Breton M, Cormier P, Morales J, Bellé R, Mulner-Lorillon O., Toxicol Appl Pharmacol. February 15, 2005; 203 (1): 1-8.
	Sea urchin metalloproteases: a genomic survey of the BMP-1/tolloid-like, MMP and ADAM families., Angerer L, Hussain S, Wei Z, Livingston BT., Dev Biol. December 1, 2006; 300 (1): 267-81.
	[The dependence of MMP-2 and MMP-9 activity in wound fluid on the wound tissue state at initial stages of wound healing process]., Protasov MV, Smagina LV, Galibin OV, Pinaev GP, Voronkina IV., Tsitologiia. January 1, 2008; 50 (10): 882-6.
	Remodeling the model organism: matrix metalloproteinase functions in invertebrates., Page-McCaw A., Semin Cell Dev Biol. February 1, 2008; 19 (1): 14-23.
	Gene expression profiling of intestinal regeneration in the sea cucumber., Ortiz-Pineda PA, Ramírez-Gómez F, Pérez-Ortiz J, González-Díaz S, Santiago-De Jesús F, Hernández-Pasos J, Del Valle-Avila C, Rojas-Cartagena C, Suárez-Castillo EC, Tossas K, Méndez-Merced AT, Roig-López JL, Ortiz-Zuazaga H, García-Arrarás JE., BMC Genomics. June 8, 2009; 10 262.
	Acidic mucopolysaccharide from Holothuria leucospilota has antitumor effect by inhibiting angiogenesis and tumor cell invasion in vivo and in vitro., Zhang W, Lu Y, Xu B, Wu J, Zhang L, Gao M, Zheng S, Wang A, Zhang C, Chen L, Lei N., Cancer Biol Ther. August 1, 2009; 8 (15): 1489-99.
	Differential effects of sulfated triterpene glycosides, holothurin A1, and 24-dehydroechinoside A, on antimetastasic activity via regulation of the MMP-9 signal pathway., Zhao Q, Xue Y, Liu ZD, Li H, Wang JF, Li ZJ, Wang YM, Dong P, Xue CH., J Food Sci. January 1, 2010; 75 (9): H280-8.
	Ethylacetate fraction from Korean seaside starfish, Asterias amurensis, has an inhibitory effect on MMP-9 activity and expression and on migration behavior of TNF-α induced human aortic smooth muscle cells., Suh SJ, Ko HK, Song KH, Kim JR, Kwon KM, Chang YC, Lee YC, Kim DS, Park SJ, Yang JH, Son JK, Na MK, Chang HW, Kim CH., Toxicol In Vitro. June 1, 2011; 25 (4): 767-73.
	Ds-echinoside A, a new triterpene glycoside derived from sea cucumber, exhibits antimetastatic activity via the inhibition of NF-κB-dependent MMP-9 and VEGF expressions., Zhao Q, Liu ZD, Xue Y, Wang JF, Li H, Tang QJ, Wang YM, Dong P, Xue CH., J Zhejiang Univ Sci B. July 1, 2011; 12 (7): 534-44.
	Matrix metalloproteinases in a sea urchin ligament with adaptable mechanical properties., Ribeiro AR, Barbaglio A, Oliveira MJ, Ribeiro CC, Wilkie IC, Candia Carnevali MD, Barbosa MA., PLoS One. January 1, 2012; 7 (11): e49016.
	A novel hatching enzyme from starfish Asterias amurensis: purification, characterization, and cleavage specificity., Li ZJ, Kim SM., Appl Biochem Biotechnol. February 1, 2013; 169 (4): 1386-96.
	Starfish polysaccharides downregulate metastatic activity through the MAPK signaling pathway in MCF-7 human breast cancer cells., Lee KS, Shin JS, Nam KS., Mol Biol Rep. October 1, 2013; 40 (10): 5959-66.
	Manganese overload affects p38 MAPK phosphorylation and metalloproteinase activity during sea urchin embryonic development., Pinsino A, Roccheri MC, Matranga V., Mar Environ Res. February 1, 2014; 93 64-9.

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