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Gregory Jon Anderson Christopher D. Vulpe 《Cellular and molecular life sciences : CMLS》2009,66(20):3241-3261
Iron is essential for basic cellular processes but is toxic when present in excess. Consequently, iron transport into and
out of cells is tightly regulated. Most iron is delivered to cells bound to plasma transferrin via a process that involves
transferrin receptor 1, divalent metal-ion transporter 1 and several other proteins. Non-transferrin-bound iron can also be
taken up efficiently by cells, although the mechanism is poorly understood. Cells can divest themselves of iron via the iron
export protein ferroportin in conjunction with an iron oxidase. The linking of an oxidoreductase to a membrane permease is
a common theme in membrane iron transport. At the systemic level, iron transport is regulated by the liver-derived peptide
hepcidin which acts on ferroportin to control iron release to the plasma. 相似文献
186.
A YAC-based physical map of the mouse genome. 总被引:9,自引:0,他引:9
C Nusbaum D K Slonim K L Harris B W Birren R G Steen L D Stein J Miller W F Dietrich R Nahf V Wang O Merport A B Castle Z Husain G Farino D Gray M O Anderson R Devine L T Horton W Ye X Wu V Kouyoumjian I S Zemsteva Y Wu A J Collymore D F Courtney J Tam M Cadman A R Haynes C Heuston T Marsland A Southwell P Trickett M A Strivens M T Ross W Makalowski Y Xu M S Boguski N P Carter P Denny S D Brown T J Hudson E S Lander 《Nature genetics》1999,22(4):388-393
A physical map of the mouse genome is an essential tool for both positional cloning and genomic sequencing in this key model system for biomedical research. Indeed, the construction of a mouse physical map with markers spaced at an average interval of 300 kb is one of the stated goals of the Human Genome Project. Here we report the results of a project at the Whitehead Institute/MIT Center for Genome Research to construct such a physical map of the mouse. We built the map by screening sequenced-tagged sites (STSs) against a large-insert yeast artificial chromosome (YAC) library and then integrating the STS-content information with a dense genetic map. The integrated map shows the location of 9,787 loci, providing landmarks with an average spacing of approximately 300 kb and affording YAC coverage of approximately 92% of the mouse genome. We also report the results of a project at the MRC UK Mouse Genome Centre targeted at chromosome X. The project produced a YAC-based map containing 619 loci (with 121 loci in common with the Whitehead map and 498 additional loci), providing especially dense coverage of this sex chromosome. The YAC-based physical map directly facilitates positional cloning of mouse mutations by providing ready access to most of the genome. More generally, use of this map in addition to a newly constructed radiation hybrid (RH) map provides a comprehensive framework for mouse genomic studies. 相似文献
187.
Southwestern Wyoming constitutes the northern limit of the ranges of the cliff chipmunk ( Tamias dorsalis ), pinyon mouse ( Peromyscus truei ), and canyon mouse ( P. crinitus ). In addition to trying to determine their presence in the region, we wanted to identify habitat characteristics commonly used by each of these species. We used Sherman live-traps to sample 14 sites representing 2 distinct habitat types in 1998 and 1999: juniper-rocky slopes and juniper cliffs. Seventeen habitat characteristics were measured at capture locations for each species and compared with randomly located points. Best subsets multiple logistic regression was used to construct models that distinguish between used and available habitat for each species. The cliff chipmunk occurred in both rocky slopes and cliffs. The pinyon mouse was also captured in rocky slopes and cliffs and was most often captured in locations in the interior of the juniper woodland with high tree canopy cover, high forb cover, and low density of rock outcrops. The canyon mouse was captured only in cliffs at sites consisting of high forb cover, high rock cover, and high tree density. 相似文献
188.
Single neurons in prefrontal cortex encode abstract rules. 总被引:26,自引:0,他引:26
The ability to abstract principles or rules from direct experience allows behaviour to extend beyond specific circumstances to general situations. For example, we learn the 'rules' for restaurant dining from specific experiences and can then apply them in new restaurants. The use of such rules is thought to depend on the prefrontal cortex (PFC) because its damage often results in difficulty in following rules. Here we explore its neural basis by recording from single neurons in the PFC of monkeys trained to use two abstract rules. They were required to indicate whether two successively presented pictures were the same or different depending on which rule was currently in effect. The monkeys performed this task with new pictures, thus showing that they had learned two general principles that could be applied to stimuli that they had not yet experienced. The most prevalent neuronal activity observed in the PFC reflected the coding of these abstract rules. 相似文献
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W van Straten M Bailes M Britton S R Kulkarni S B Anderson R N Manchester J Sarkissian 《Nature》2001,412(6843):158-160
Binary pulsars provide an excellent system for testing general relativity because of their intrinsic rotational stability and the precision with which radio observations can be used to determine their orbital dynamics. Measurements of the rate of orbital decay of two pulsars have been shown to be consistent with the emission of gravitational waves as predicted by general relativity, but independent verification was not possible. Such verification can in principle be obtained by determining the orbital inclination in a binary pulsar system using only classical geometrical constraints. This would permit a measurement of the expected retardation of the pulse signal arising from the general relativistic curvature of space-time in the vicinity of the companion object (the 'Shapiro delay'). Here we report high-precision radio observations of the binary millisecond pulsar PSR J0437-4715, which establish the three-dimensional structure of its orbit. We see the Shapiro delay predicted by general relativity, and we determine the mass of the neutron star and its white dwarf companion. The determination of such masses is necessary in order to understand the origin and evolution of neutron stars. 相似文献