Neuropeptides

Publications

Listed below are the most recent publications for Neuropeptides.

1. Wade J, Lin F, Hossain M, Dawson R.
   Chemical synthesis and biological evaluation of an antimicrobial peptide gonococcal growth inhibitor. Amino Acids 2012; PMID: 22555649
2. Shabanpoor F, Bathgate R, Belgi A, Chan LJ, Nair V, Wade J, Hossain M.
   Site-specific conjugation of a lanthanide chelator and its effects on the chemical synthesis and receptor binding affinity of human relaxin-2 hormone. Biochem Biophys Res Commun 2012;420(2):253-6. PMID: 22425984
3. Hossain M, Wade J, Bathgate R.
   Chimeric relaxin peptides highlight the role of the A-chain in the function of H2 relaxin. Peptides 2012;35(1):102-6. PMID: 22414484
4. Ryan P, Ma S, Olucha-Bordonau F, Gundlach A.
   Nucleus incertus--an emerging modulatory role in arousal, stress and memory. Neurosci Biobehav Rev 2011;35(6):1326-41. PMID: 21329721
5. Samuel C, Cendrawan S, Gao X, Ming Z, Zhao C, Kiriazis H, Xu Q, Tregear G, Bathgate R, Du X.
   Relaxin remodels fibrotic healing following myocardial infarction. Lab Invest 2011;91(5):675-90. PMID: 21221074
6. Hossain M, Man B, Zhao C, Xu Q, Du X, Wade J, Samuel C.
   H3 relaxin demonstrates antifibrotic properties via the RXFP1 receptor. Biochemistry 2011;50(8):1368-75. PMID: 21229994
7. Shabanpoor F, Separovic F, Wade J.
   General method for selective labelling of double-chain cysteine-rich peptides with a lanthanide chelate via solid-phase synthesis. J Pept Sci 2011; PMID: 21226031
8. Shabanpoor F, Separovic F, Wade J.
   General method for selective labelling of double-chain cysteine-rich peptides with a lanthanide chelate via solid-phase synthesis. J Pept Sci 2011;17(3):169-73. PMID: 21308873
9. Shabanpoor F, Zhang S, Hughes R, Hossain M, Layfield S, Ferraro T, Bathgate R, Separovic F, Wade J.
   Design and development of analogues of dimers of insulin-like peptide 3 B-chain as high-affinity antagonists of the RXFP2 receptor. Biopolymers 2011;96(1):81-7. PMID: 20560146
10. Callander GE, Thomas WG, Bathgate RA.
    Prolonged RXFP1 and RXFP2 signaling can be explained by poor internalization and a lack of β-arrestin recruitment Am J Physiol Cell Physiol 2009 May;296(5):C1058-66. PMID: 19279230