Papers associated with surface structure (and levi)

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	Extraocular, rod-like photoreceptors in a flatworm express xenopsin photopigment., Rawlinson KA., Elife. October 22, 2019; 8
	Frog Skin Innate Immune Defences: Sensing and Surviving Pathogens., Varga JFA., Front Immunol. September 12, 2018; 9 3128.
	Co-expression of xenopsin and rhabdomeric opsin in photoreceptors bearing microvilli and cilia., Vöcking O., Elife. September 6, 2017; 6
	Peptidomic analysis of the extensive array of host-defense peptides in skin secretions of the dodecaploid frog Xenopus ruwenzoriensis (Pipidae)., Coquet L., Comp Biochem Physiol Part D Genomics Proteomics. September 1, 2016; 19 18-24.
	Host-defense and trefoil factor family peptides in skin secretions of the Mawa clawed frog Xenopus boumbaensis (Pipidae)., Conlon JM., Peptides. October 1, 2015; 72 44-9.
	Evidence from peptidomic analysis of skin secretions that allopatric populations of Xenopus gilli (Anura:Pipidae) constitute distinct lineages., Conlon JM., Peptides. January 1, 2015; 63 118-25.
	Host-defense peptides from skin secretions of Fraser's clawed frog Xenopus fraseri (Pipidae): Further insight into the evolutionary history of the Xenopodinae., Conlon JM., Comp Biochem Physiol Part D Genomics Proteomics. December 1, 2014; 12 45-52.
	Host-defense peptides from skin secretions of the octoploid frogs Xenopus vestitus and Xenopus wittei (Pipidae): insights into evolutionary relationships., Mechkarska M., Comp Biochem Physiol Part D Genomics Proteomics. September 1, 2014; 11 20-8.
	Host-defense peptides with therapeutic potential from skin secretions of frogs from the family pipidae., Conlon JM., Pharmaceuticals (Basel). January 15, 2014; 7 (1): 58-77.
	Peptidomic analysis of skin secretions provides insight into the taxonomic status of the African clawed frogs Xenopus victorianus and Xenopus laevis sudanensis (Pipidae)., King JD., Comp Biochem Physiol Part D Genomics Proteomics. September 1, 2013; 8 (3): 250-4.
	A comparison of host-defense peptides in skin secretions of female Xenopus laevis × Xenopus borealis and X. borealis × X. laevis F1 hybrids., Mechkarska M., Peptides. July 1, 2013; 45 1-8.
	Caerulein precursor fragment (CPF) peptides from the skin secretions of Xenopus laevis and Silurana epitropicalis are potent insulin-releasing agents., Srinivasan D., Biochimie. February 1, 2013; 95 (2): 429-35.
	Origin and functional diversification of an amphibian defense peptide arsenal., Roelants K., PLoS Genet. January 1, 2013; 9 (8): e1003662.
	Host-defense peptides in skin secretions of the tetraploid frog Silurana epitropicalis with potent activity against methicillin-resistant Staphylococcus aureus (MRSA)., Conlon JM., Peptides. September 1, 2012; 37 (1): 113-9.
	Host-defense peptides in skin secretions of African clawed frogs (Xenopodinae, Pipidae)., Conlon JM., Gen Comp Endocrinol. May 1, 2012; 176 (3): 513-8.
	Host-defense peptides from skin secretions of the tetraploid frogs Xenopus petersii and Xenopus pygmaeus, and the octoploid frog Xenopus lenduensis (Pipidae)., King JD., Peptides. January 1, 2012; 33 (1): 35-43.
	Peptidomic analysis of skin secretions demonstrates that the allopatric populations of Xenopus muelleri (Pipidae) are not conspecific., Mechkarska M., Peptides. July 1, 2011; 32 (7): 1502-8.
	Caerulein-and xenopsin-related peptides with insulin-releasing activities from skin secretions of the clawed frogs, Xenopus borealis and Xenopus amieti (Pipidae)., Zahid OK., Gen Comp Endocrinol. June 1, 2011; 172 (2): 314-20.
	Genome duplications within the Xenopodinae do not increase the multiplicity of antimicrobial peptides in Silurana paratropicalis and Xenopus andrei skin secretions., Mechkarska M., Comp Biochem Physiol Part D Genomics Proteomics. June 1, 2011; 6 (2): 206-12.
	Purification and properties of antimicrobial peptides from skin secretions of the Eritrea clawed frog Xenopus clivii (Pipidae)., Conlon JM., Comp Biochem Physiol C Toxicol Pharmacol. April 1, 2011; 153 (3): 350-4.
	Antimicrobial peptides with therapeutic potential from skin secretions of the Marsabit clawed frog Xenopus borealis (Pipidae)., Mechkarska M., Comp Biochem Physiol C Toxicol Pharmacol. November 1, 2010; 152 (4): 467-72.
	Orthologs of magainin, PGLa, procaerulein-derived, and proxenopsin-derived peptides from skin secretions of the octoploid frog Xenopus amieti (Pipidae)., Conlon JM., Peptides. June 1, 2010; 31 (6): 989-94.
	Phylloxin, a novel peptide antibiotic of the dermaseptin family of antimicrobial/opioid peptide precursors., Pierre TN., Eur J Biochem. January 1, 2000; 267 (2): 370-8.
	Purification of antimicrobial peptides from an extract of the skin of Xenopus laevis using heparin-affinity HPLC: characterization by ion-spray mass spectrometry., James S., Anal Biochem. February 15, 1994; 217 (1): 84-90.
	Localization of xenopsin and xenopsin precursor fragment immunoreactivities in the skin and gastrointestinal tract of Xenopus laevis., Sadler KC., Cell Tissue Res. November 1, 1992; 270 (2): 257-63.
	Antimicrobial peptides in the stomach of Xenopus laevis., Moore KS., J Biol Chem. October 15, 1991; 266 (29): 19851-7.
	Generation of xenopsin-related peptides from tissue precursors by media conditioned by endotoxin-stimulated rat peritoneal macrophages., Cochrane DE., Inflammation. October 1, 1991; 15 (5): 381-90.
	Characterisation of xenopsin immunoreactivity derived from pepsinised human skin and possible mechanism of in vivo generation., Eedy DJ., Regul Pept. June 1, 1990; 29 (1): 13-21.
	Xenopus laevis skin Arg-Xaa-Val-Arg-Gly-endoprotease. A highly specific protease cleaving after a single arginine of a consensus sequence of peptide hormone precursors., Kuks PF., J Biol Chem. September 5, 1989; 264 (25): 14609-12.
	The genes for the frog skin peptides GLa, xenopsin, levitide and caerulein contain a homologous export exon encoding a signal sequence and part of an amphiphilic peptide., Kuchler K., Eur J Biochem. February 1, 1989; 179 (2): 281-5.
	Xenopsin-related peptide generated in avian gastric extracts., Carraway RE., Regul Pept. September 1, 1988; 22 (4): 303-14.
	Levitide, a neurohormone-like peptide from the skin of Xenopus laevis. Peptide and peptide precursor cDNA sequences., Poulter L., J Biol Chem. March 5, 1988; 263 (7): 3279-83.
	Antimicrobial properties of peptides from Xenopus granular gland secretions., Soravia E., FEBS Lett. February 15, 1988; 228 (2): 337-40.
	Biogenic amines and active peptides in the skin of fifty-two African amphibian species other than bufonids., Roseghini M., Comp Biochem Physiol C Comp Pharmacol Toxicol. January 1, 1988; 91 (2): 281-6.
	Neurotensin receptors on the rat liver plasma membranes., Muraki K., Biochem Biophys Res Commun. June 30, 1987; 145 (3): 1071-9.
	Biosynthesis and degradation of peptides derived from Xenopus laevis prohormones., Giovannini MG., Biochem J. April 1, 1987; 243 (1): 113-20.
	Isolation of a dipeptidyl aminopeptidase, a putative processing enzyme, from skin secretion of Xenopus laevis., Mollay C., Eur J Biochem. October 1, 1986; 160 (1): 31-5.
	Novel peptide fragments originating from PGLa and the caerulein and xenopsin precursors from Xenopus laevis., Gibson BW., J Biol Chem. April 25, 1986; 261 (12): 5341-9.
	A mass spectrometric method for the identification of novel peptides in Xenopus laevis skin secretions., Gibson BW., J Nat Prod. January 1, 1986; 49 (1): 26-34.
	Motor hypoactivity induced by neurotensin and related peptides in mice., Meisenberg G., Pharmacol Biochem Behav. February 1, 1985; 22 (2): 189-93.
	A mass spectrometric assay for novel peptides: application to Xenopus laevis skin secretions., Gibson BW., Peptides. January 1, 1985; 6 Suppl 3 23-7.
	The comparative distribution of xenopsin- and neurotensin-like immunoreactivity in Xenopus laevis and rat tissues., Goedert M., Dev Biol. August 13, 1984; 308 (2): 273-80.
	Xenopsin: the neurotensin-like octapeptide from Xenopus skin at the carboxyl terminus of its precursor., Sures I., Proc Natl Acad Sci U S A. January 1, 1984; 81 (2): 380-4.
	Amphibian neurotensin (NT) is not xenopsin (XP): dual presence of NT-like and XP-like peptides in various amphibia., Carraway R., Endocrinology. April 1, 1982; 110 (4): 1094-101.
	Isolation and structure of a new active peptide xenopsin on rat stomach strip and some biogenic amines in the skin of Xenopus laevis., Araki K., Chem Pharm Bull (Tokyo). December 1, 1975; 23 (12): 3132-40.

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