TY - JOUR
T1 - Endogenous peptide discovery of the rat circadian clock
T2 - A focused study of the suprachiasmatic nucleus by ultrahigh performance tandem mass spectrometry
AU - Lee, Ji Eun
AU - Atkins, Norman
AU - Hatcher, Nathan G.
AU - Zamdborg, Leonid
AU - Gillette, Martha U.
AU - Sweedler, Jonathan V.
AU - Kelleher, Neil L.
PY - 2010/2
Y1 - 2010/2
N2 - Understanding how a small brain region, the suprachiasmatic nucleus (SCN), can synchronize the body's circadian rhythms is an ongoing research area. This important time-keeping system requires a complex suite of peptide hormones and transmitters that remain incompletely characterized. Here, capillary liquid chromatography and FTMS have been coupled with tailored software for the analysis of endogenous peptides present in the SCN of the rat brain. After ex vivo processing of brain slices, peptide extraction, identification, and characterization from tandem FTMS data with <5-ppm mass accuracy produced a hyperconfident list of 102 endogenous peptides, including 33 previously unidentified peptides, and 12 peptides that were post-translationally modified with amidation, phosphorylation, pyroglutamylation, or acetylation. This characterization of endogenous peptides from the SCN will aid in understanding the molecular mechanisms that mediate rhythmic behaviors in mammals.
AB - Understanding how a small brain region, the suprachiasmatic nucleus (SCN), can synchronize the body's circadian rhythms is an ongoing research area. This important time-keeping system requires a complex suite of peptide hormones and transmitters that remain incompletely characterized. Here, capillary liquid chromatography and FTMS have been coupled with tailored software for the analysis of endogenous peptides present in the SCN of the rat brain. After ex vivo processing of brain slices, peptide extraction, identification, and characterization from tandem FTMS data with <5-ppm mass accuracy produced a hyperconfident list of 102 endogenous peptides, including 33 previously unidentified peptides, and 12 peptides that were post-translationally modified with amidation, phosphorylation, pyroglutamylation, or acetylation. This characterization of endogenous peptides from the SCN will aid in understanding the molecular mechanisms that mediate rhythmic behaviors in mammals.
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U2 - 10.1074/mcp.M900362-MCP200
DO - 10.1074/mcp.M900362-MCP200
M3 - Article
C2 - 19955084
AN - SCOPUS:76649132991
SN - 1535-9476
VL - 9
SP - 285
EP - 297
JO - Molecular and Cellular Proteomics
JF - Molecular and Cellular Proteomics
IS - 2
ER -