Papers associated with LOC115921237

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	Singlet oxygen generation by the reaction of acrolein with peroxynitrite via a 2-hydroxyvinyl radical intermediate., Gonçalves LCP, Massari J, Licciardi S, Prado FM, Linares E, Klassen A, Tavares MFM, Augusto O, Di Mascio P, Bechara EJH., Free Radic Biol Med. May 20, 2020; 152 83-90.
	Bio-synthesized sardine oil concentrate alters the composition of hepatic lipids in rats: A lipidomic approach., Uyeda M, Duarte GHB, de Piloto Fernandes AMA, Contesini FJ, Messias MCF, de Santis GKD, Barros KV, Simionato AVC, de Oliveira Carvalho P., Food Res Int. April 1, 2020; 130 108874.
	Genetic Characterization of Plasmid-Borne blaOXA-58 in Distinct Acinetobacter Species., Matos AP, Cayô R, Almeida LGP, Streling AP, Nodari CS, Martins WMBS, Narciso AC, Silva RM, Vasconcelos ATR, Gales AC., mSphere. October 16, 2019; 4 (5):
	Distinct transcriptional regulation of Nanos2 in the germ line and soma by the Wnt and delta/notch pathways., Oulhen N, Swartz SZ, Wang L, Wikramanayake A, Wessel GM., Dev Biol. August 1, 2019; 452 (1): 34-42.
	Single cell RNA-seq in the sea urchin embryo show marked cell-type specificity in the Delta/Notch pathway., Foster S, Teo YV, Neretti N, Oulhen N, Wessel GM., Mol Reprod Dev. August 1, 2019; 86 (8): 931-934.
	Long-distance influence of the Rhône River plume on the marine benthic ecosystem: Integrating descriptive ecology and predictive modelling., Martin D, Pititto F, Gil J, Mura MP, Bahamon N, Romano C, Thorin S, Schvartz T, Dutrieux É, Bocquenet Y., Sci Total Environ. July 10, 2019; 673 790-809.
	Conserved regulatory state expression controlled by divergent developmental gene regulatory networks in echinoids., Erkenbrack EM, Davidson EH, Peter IS., Development. December 18, 2018; 145 (24):
	Neurogenesis in the sea urchin embryo is initiated uniquely in three domains., McClay DR, Miranda E, Feinberg SL., Development. November 9, 2018; 145 (21):
	Embryonic neurogenesis in echinoderms., Hinman VF, Burke RD., Wiley Interdiscip Rev Dev Biol. July 1, 2018; 7 (4): e316.
	Identification of neural transcription factors required for the differentiation of three neuronal subtypes in the sea urchin embryo., Slota LA, McClay DR., Dev Biol. March 15, 2018; 435 (2): 138-149.
	Notch-mediated lateral inhibition is an evolutionarily conserved mechanism patterning the ectoderm in echinoids., Erkenbrack EM., Dev Genes Evol. January 1, 2018; 228 (1): 1-11.
	Notch signaling patterns neurogenic ectoderm and regulates the asymmetric division of neural progenitors in sea urchin embryos., Mellott DO, Thisdelle J, Burke RD., Development. October 1, 2017; 144 (19): 3602-3611.
	Seasonal migration of the starry smooth-hound shark Mustelus asterias as revealed from tag-recapture data of an angler-led tagging programme., Brevé NW, Winter HV, Van Overzee HM, Farrell ED, Walker PA., J Fish Biol. August 1, 2016; 89 (2): 1158-77.
	Effect of Polishing Systems on Surface Roughness and Topography of Monolithic Zirconia., Goo CL, Yap A, Tan K, Fawzy AS., Oper Dent. January 1, 2016; 41 (4): 417-23.
	Large-scale gene expression study in the ophiuroid Amphiura filiformis provides insights into evolution of gene regulatory networks., Dylus DV, Czarkwiani A, Stångberg J, Ortega-Martinez O, Dupont S, Oliveri P., Evodevo. January 1, 2016; 7 2.
	Robustness and Accuracy in Sea Urchin Developmental Gene Regulatory Networks., Ben-Tabou de-Leon S., Front Genet. January 1, 2016; 7 16.
	ABCC5 is required for cAMP-mediated hindgut invagination in sea urchin embryos., Shipp LE, Hill RZ, Moy GW, Gökırmak T, Hamdoun A., Development. October 15, 2015; 142 (20): 3537-48.
	Deployment of a retinal determination gene network drives directed cell migration in the sea urchin embryo., Martik ML, McClay DR., Elife. September 24, 2015; 4
	Dose-dependent nuclear β-catenin response segregates endomesoderm along the sea star primary axis., McCauley BS, Akyar E, Saad HR, Hinman VF., Development. January 1, 2015; 142 (1): 207-17.
	Characterization of the highly variable immune response gene family, He185/333, in the sea urchin, Heliocidaris erythrogramma., Roth MO, Wilkins AG, Cooke GM, Raftos DA, Nair SV., PLoS One. October 17, 2014; 9 (10): e62079.
	Metabolic profile response to administration of epigallocatechin-3-gallate in high-fat-fed mice., Moreno MF, De Laquila R, Okuda MH, Lira FS, de Souza GI, de Souza CT, Telles MM, Ribeiro EB, do Nascimento CM, Oyama LM., Diabetol Metab Syndr. August 12, 2014; 6 (1): 84.
	Sea urchin neural development and the metazoan paradigm of neurogenesis., Burke RD, Moller DJ, Krupke OA, Taylor VJ., Genesis. March 1, 2014; 52 (3): 208-21.
	Gene regulatory network for neurogenesis in a sea star embryo connects broad neural specification and localized patterning., Yankura KA, Koechlein CS, Cryan AF, Cheatle A, Hinman VF., Proc Natl Acad Sci U S A. May 21, 2013; 110 (21): 8591-6.
	Sparse representation based image interpolation with nonlocal autoregressive modeling., Dong W, Zhang L, Lukac R, Shi G., IEEE Trans Image Process. April 1, 2013; 22 (4): 1382-94.
	Notch and Nodal control forkhead factor expression in the specification of multipotent progenitors in sea urchin., Materna SC, Swartz SZ, Smith J., Development. April 1, 2013; 140 (8): 1796-806.
	Diversification of oral and aboral mesodermal regulatory states in pregastrular sea urchin embryos., Materna SC, Ransick A, Li E, Davidson EH., Dev Biol. March 1, 2013; 375 (1): 92-104.
	Cis-regulatory logic driving glial cells missing: self-sustaining circuitry in later embryogenesis., Ransick A, Davidson EH., Dev Biol. April 15, 2012; 364 (2): 259-67.
	A comprehensive analysis of Delta signaling in pre-gastrular sea urchin embryos., Materna SC, Davidson EH., Dev Biol. April 1, 2012; 364 (1): 77-87.
	Zinc finger homeobox is required for the differentiation of serotonergic neurons in the sea urchin embryo., Yaguchi J, Angerer LM, Inaba K, Yaguchi S., Dev Biol. March 1, 2012; 363 (1): 74-83.
	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.
	Reciprocal signaling between the ectoderm and a mesendodermal left-right organizer directs left-right determination in the sea urchin embryo., Bessodes N, Haillot E, Duboc V, Röttinger E, Lahaye F, Lepage T., PLoS Genet. January 1, 2012; 8 (12): e1003121.
	Precise cis-regulatory control of spatial and temporal expression of the alx-1 gene in the skeletogenic lineage of s. purpuratus., Damle S, Davidson EH., Dev Biol. September 15, 2011; 357 (2): 505-17.
	A gene regulatory network controlling the embryonic specification of endoderm., Peter IS, Davidson EH., Nature. May 29, 2011; 474 (7353): 635-9.
	[Distribution, population parameters, and diet of Astropecten marginatus (Asteroidea: Astropectinidae) in the Venezuelan Atlantic coast]., Ortega I, Martín A, Díaz Y., Rev Biol Trop. March 1, 2011; 59 (1): 53-69.
	Involvement of Delta and Nodal signals in the specification process of five types of secondary mesenchyme cells in embryo of the sea urchin, Hemicentrotus pulcherrimus., Ohguro Y, Takata H, Kominami T., Dev Growth Differ. January 1, 2011; 53 (1): 110-23.
	Ancestral regulatory circuits governing ectoderm patterning downstream of Nodal and BMP2/4 revealed by gene regulatory network analysis in an echinoderm., Saudemont A, Haillot E, Mekpoh F, Bessodes N, Quirin M, Lapraz F, Duboc V, Röttinger E, Range R, Oisel A, Besnardeau L, Wincker P, Lepage T., PLoS Genet. December 23, 2010; 6 (12): e1001259.
	Conserved early expression patterns of micromere specification genes in two echinoid species belonging to the orders clypeasteroida and echinoida., Yamazaki A, Furuzawa Y, Yamaguchi M., Dev Dyn. December 1, 2010; 239 (12): 3391-403.
	Variation in delta13C and delta15N diet-vibrissae trophic discrimination factors in a wild population of California sea otters., Newsome SD, Bentall GB, Tinker MT, Oftedal OT, Ralls K, Estes JA, Fogel ML., Ecol Appl. September 1, 2010; 20 (6): 1744-52.
	Cis-regulatory analysis of the sea urchin pigment cell gene polyketide synthase., Calestani C, Rogers DJ., Dev Biol. April 15, 2010; 340 (2): 249-55.
	Activation of the skeletogenic gene regulatory network in the early sea urchin embryo., Sharma T, Ettensohn CA., Development. April 1, 2010; 137 (7): 1149-57.
	Phosphoproteomes of Strongylocentrotus purpuratus shell and tooth matrix: identification of a major acidic sea urchin tooth phosphoprotein, phosphodontin., Mann K, Poustka AJ, Mann M., Proteome Sci. February 8, 2010; 8 (1): 6.
	Dynamics of Delta/Notch signaling on endomesoderm segregation in the sea urchin embryo., Croce JC, McClay DR., Development. January 1, 2010; 137 (1): 83-91.
	Patterning of the dorsal-ventral axis in echinoderms: insights into the evolution of the BMP-chordin signaling network., Lapraz F, Besnardeau L, Lepage T., PLoS Biol. November 1, 2009; 7 (11): e1000248.
	Langmur monolayers of cerebroside with different head groups originated from sea cucumber: binary systems with dipalmitoylphosphatidylcholine (DPPC)., Ikeda Y, Inagaki M, Yamada K, Miyamoto T, Higuchi R, Shibata O., Colloids Surf B Biointerfaces. September 1, 2009; 72 (2): 272-83.
	Gene regulatory network interactions in sea urchin endomesoderm induction., Sethi AJ, Angerer RC, Angerer LM., PLoS Biol. February 3, 2009; 7 (2): e1000029.
	Antiproliferative, cytotoxic and hemolytic activities of a triterpene glycoside from Psolus patagonicus and its desulfated analog., Careaga VP, Bueno C, Muniain C, Alché L, Maier MS., Chemotherapy. January 1, 2009; 55 (1): 60-8.
	Structure-function correlation of micro1 for micromere specification in sea urchin embryos., Yamazaki A, Ki S, Kokubo T, Yamaguchi M., Mech Dev. January 1, 2009; 126 (8-9): 611-23.
	Gene regulatory network subcircuit controlling a dynamic spatial pattern of signaling in the sea urchin embryo., Smith J, Davidson EH., Proc Natl Acad Sci U S A. December 23, 2008; 105 (51): 20089-94.
	LvNumb works synergistically with Notch signaling to specify non-skeletal mesoderm cells in the sea urchin embryo., Range RC, Glenn TD, Miranda E, McClay DR., Development. August 1, 2008; 135 (14): 2445-54.
	Krüppel-like is required for nonskeletogenic mesoderm specification in the sea urchin embryo., Yamazaki A, Kawabata R, Shiomi K, Tsuchimoto J, Kiyomoto M, Amemiya S, Yamaguchi M., Dev Biol. February 15, 2008; 314 (2): 433-42.

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