Chunyan Li 1 , Fang Geng 1 , Xi Huang 1 , Meihu Ma 2 , Xiaowei Zhang 1 . Show Affiliations »
Abstract
The aim of this study was to investigate the role of phosvitin in bone formation in chicken embryos. The yolk P content, P/N ratio and secondary structure of phosvitin, alkaline phosphatase (ALP) activity of the tibia, and body length were determined during incubation. A high correlation was found between the phosphate group content of phosvitin and both secondary structure and bone metabolism (ALP activity in the tibia, body length). The ALP activity and body length growth slightly lagged behind changes in the P/N ratio and the secondary structure of phosvitin. The phosphate content of phosvitin decreased, the γ-random coil and β-turn gradually transformed into α-helixes, and the secondary structure of protein tended to become more orderly; these changes mainly occurred on d 13 to 16. Bone formation of the chicken embryos occurred primarily on d 14 to 18, whereas ALP activity and body length growth increased substantially. The results indicate that phosvitin P is involved in chicken embryo bone formation through dephosphorylation. ©2014 Poultry Science Association Inc.
The aim of this study was to investigate the role of n class="Gene">phosvitin inpan> bonpan>e formationpan> inpan>
pan> class="Species">chicken embryos. The
yolk P content, P/
N ratio and secondary structure of
phosvitin , alkaline phosphatase (ALP) activity of the tibia, and body length were determined during incubation. A high correlation was found between the
phosphate group content of
phosvitin and both secondary structure and bone metabolism (ALP activity in the tibia, body length). The ALP activity and body length growth slightly lagged behind changes in the P/
N ratio and the secondary structure of
phosvitin . The
phosphate content of
phosvitin decreased, the γ-random coil and β-turn gradually transformed into α-helixes, and the secondary structure of protein tended to become more orderly; these changes mainly occurred on d 13 to 16. Bone formation of the
chicken embryos occurred primarily on d 14 to 18, whereas ALP activity and body length growth increased substantially. The results indicate that
phosvitin P is involved in
chicken embryo bone formation through dephosphorylation. ©2014 Poultry Science Association Inc.
Entities: Chemical
Gene
Species
Keywords:
bone formation; chicken embryo development; dephosphorylation; phosvitin
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Substances: See more »
Year: 2014
PMID: 25352680 DOI: 10.3382/ps.2014-04098
Source DB: PubMed Journal: Poult Sci ISSN: 0032-5791 Impact factor: 3.352