Author/Authors :
Anderson، Gregory J. نويسنده , , Shayeghi، Majid نويسنده , , Latunde-Dada، Gladys O. نويسنده , , Oakhill، Jonathan S. نويسنده , , Laftah، Abas H. نويسنده , , Takeuchi، Ken نويسنده , , Halliday، Neil نويسنده , , Khan، Yasmin نويسنده , , Warley، Alice نويسنده , , McCann، Fiona E. نويسنده , , Hider، Robert C. نويسنده , , Frazer، David M. نويسنده , , Vulpe، Christopher D. نويسنده , , Simpson، Robert J. نويسنده , , McKie، Andrew T. نويسنده ,
Abstract :
Dietary heme iron is an important nutritional source of iron in carnivores and omnivores that is more readily absorbed than non-heme iron derived from vegetables and grain. Most heme is absorbed in the proximal intestine, with absorptive capacity decreasing distally. We utilized a subtractive hybridization approach to isolate a heme transporter from duodenum by taking advantage of the intestinal gradient for heme absorption. Here we show a membrane protein named HCP1 (heme carrier protein 1), with homology to bacterial metal-tetracycline transporters, mediates heme uptake by cells in a temperature-dependent and saturable manner. HCP1 mRNA was highly expressed in duodenum and regulated by hypoxia. HCP1 protein was iron regulated and localized to the brush-border membrane of duodenal enterocytes in iron deficiency. Our data indicate that HCP1 is the long-sought intestinal heme transporter.
Keywords :
DIGLYPHUS ISAEA , Liriomyza trifolii , Abamectin compatibility , Biological control , IPM , Greenhouse
