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81.
Hidenori Takahashi Shigetaka Shimodaira Masahiro Ogasawara Shuichi Ota Masanori Kobayashi Hirofumi Abe Yuji Morita Kazuhiro Nagai Shunichi Tsujitani Masato Okamoto Yukio Suzuki Yoichi Nakanishi Yoshikazu Yonemitsu for the DC Vaccine Study Group at the Japanese Society of Immunotherapy Cell Therapy 《Cancer immunology, immunotherapy : CII》2016,65(9):1099-1111
82.
TL Kieft EM Murphy DL Haldeman PS Amy BN Bjornstad EV McDonald DB Ringelberg DC White J Stair RP Griffiths TC Gsell WE Holben DR Boone 《Microbial ecology》1998,36(3):336-348
Abstract Two chronosequences of unsaturated, buried loess sediments, ranging in age from <10,000 years to >1 million years, were investigated to reconstruct patterns of microbial ecological succession that have occurred since sediment burial. The relative importance of microbial transport and survival to succession was inferred from sediment ages, porewater ages, patterns of abundance (measured by direct counts, counts of culturable cells, and total phospholipid fatty acids), activities (measured by radiotracer and enzyme assays), and community composition (measured by phospholipid fatty acid patterns and Biolog substrate usage). Core samples were collected at two sites 40 km apart in the Palouse region of eastern Washington State, near the towns of Washtucna and Winona. The Washtucna site was flooded multiple times during the Pleistocene by glacial outburst floods; the Winona site elevation is above flood stage. Sediments at the Washtucna site were collected from near surface to 14.9 m depth, where the sediment age was approximately 250 ka and the porewater age was 3700 years; sample intervals at the Winona site ranged from near surface to 38 m (sediment age: approximately 1 Ma; porewater age: 1200 years). Microbial abundance and activities declined with depth at both sites; however, even the deepest, oldest sediments showed evidence of viable microorganisms. Same-age sediments had equal quantities of microorganisms, but different community types. Differences in community makeup between the two sites can be attributed to differences in groundwater recharge and paleoflooding. Estimates of the microbial community age can be constrained by porewater and sediment ages. In the shallower sediments (<9 m at Washtucna, <12 m at Winona), the microbial communities are likely similar in age to the groundwater; thus, microbial succession has been influenced by recent transport of microorganisms from the surface. In the deeper sediments, the populations may be considerably older than the porewater ages, since microbial transport is severely restricted in unsaturated sediments. This is particularly true at the Winona site, which was never flooded. 相似文献
83.
Walter RB; Rolig RL; Kozak KA; McEntire B; Morizot DC; Nairn RS 《Molecular biology and evolution》1993,10(6):1227-1238
Fishes represent the stem vertebrate condition and have maintained several
gene arrangements common to mammalian genomes throughout the 450 Myr of
divergence from a common ancestor. One such syntenic arrangement includes
the GPI-PEPD enzyme association on Xiphophorus linkage group IV and human
chromosome 19. Previously we assigned the Xiphophorus homologue of the
human ERCC2 gene to linkage group U5 in tight association with the CKM
locus. CKM is also tightly linked to the ERCC2 locus on human chromosome
19, leading to speculation that human chromosome 19 may have arisen by
fusion of two ancestral linkage groups which have been maintained in
fishes. To investigate this hypothesis further, we isolated and sequenced
Xiphophorus fish genomic regions exhibiting considerable sequence
similarity to the human DNA ligase 1 amino acid sequence. Comparison of the
fish DNA ligase sequence with those of other species suggests several modes
of amino acid conservation in this gene. A 2.2-kb restriction fragment
containing part of an X. maculatus DNA ligase 1 exon was used in backcross
hybrid mapping with 12 enzyme or RFLP loci. Significant linkage was
observed between the nucleoside phosphorylase (NP2) and the DNA ligase
(LIG1) loci on Xiphophorus linkage group VI. This assignment suggests that
the association of four DNA repair-related genes on human chromosome 19 may
be the result of chance chromosomal rearrangements.
相似文献
84.
Restriction mapping and sequencing have shown that humans have
substantially lower levels of mitochondrial genome diversity (d) than
chimpanzees. In contrast, humans have substantially higher levels of
heterozygosity (H) at protein-coding loci, suggesting a higher level of
diversity in the nuclear genome. To investigate the discrepancy further, we
sequenced a segment of the mitochondrial genome control region (CR) from 49
chimpanzees. The majority of these were from the Pan troglodytes versus
subspecies, which was underrepresented in previous studies. We also
estimated the average heterozygosity at 60 short tandem repeat (STR) loci
in both species. For a total sample of 115 chimpanzees, d = 0.075 +/0
0.037, compared to 0.020 +/- 0.011 for a sample of 1,554 humans. The
heterozygosity of human STR loci is significantly higher than that of
chimpanzees. Thus, the higher level of nuclear genome diversity relative to
mitochondrial genome diversity in humans is not restricted to
protein-coding loci. It seems that humans, not chimpanzees, have an unusual
d/H ratio, since the ratio in chimpanzees is similar to that in other
catarrhines. This discrepancy in the relative levels of nuclear and
mitochondrial genome diversity in the two species cannot be explained by
differences in mutation rate. However, it may result from a combination of
factors such as a difference in the extent of sex ratio disparity, the
greater effect of population subdivision on mitochondrial than on nuclear
genome diversity, a difference in the relative levels of male and female
migration among subpopulations, diversifying selection acting to increase
variation in the nuclear genome, and/or directional selection acting to
reduce variation in the mitochondrial genome.
相似文献
85.
J T Hazzard G McLendon M A Cusanovich G Tollin 《Biochemical and biophysical research communications》1988,151(1):429-434
Electron transfer from yeast ferrous cytochrome c to H2O2-oxidized yeast cytochrome c peroxidase has been studied using flash photoreduction methods. At low ionic strength (mu less than 10 mM), where a strong complex is formed between cytochrome c and peroxidase, electron transfer occurs rather slowly (k approximately 200s-1). However, at high ionic strength where the electrostatic complex is largely dissociated, the observed first-order rate constant for peroxidase reduction increases significantly reaching a concentration independent limit of k approximately 1500 s-1. Thus, at least in some cases, formation of an electrostatically-stabilized complex can actually impede electron transfer between proteins. 相似文献
86.
87.
Reversible guanidine hydrochloride denaturation has been applied to obtain the first quantitative estimate of ligand-induced changes in hemoprotein conformational free energy. It is found that strong field (low spin) complexes, e.g. cyanometmyoglobin (MbCN) and azido metmyoglobin (MbN3), are 1.0 +/- 0.1 kcal/mol more stable than the high spin analogs aquometmyoglobin (MbH2O) and fluorometmyoglobin (MbF). This observed stability increment is essentially independent of the model chosen for data analysis. These results demonstrate the value of denaturation titration in measuring the stabilization of hemoprotein conformation by ligand binding. The denaturation of MbN3 appears complex. This complexity may be quantitatively accounted for by considering spin state equilibria. Applying this correction, MbCN and MbN3 have essentially the same stability in spite of steric differences in the two proteins. This result implies metal spin state is more important than ligand stereochemistry in determining the conformational free energy of myoglobin. 相似文献
88.
89.
Roman Nepomuceno Matthew Zeglinski Jordyn Lerner Wlodzimierz Czarnecki Iain DC Kirkpatrick Jacek Strzelczyk Davinder S Jassal 《Cardiovascular ultrasound》2011,9(1):1-3
Partial anomalous pulmonary venous connection (PAPVC) is an extremely rare congenital condition where one or more of the pulmonary veins are connected to the venous circulation. Although initially suspected with unexplained right ventricular enlargement on transthoracic echocardiography (TTE), cardiac MRI is able to delineate the anatomical variant. We present a case of a 65-year-old male diagnosed with left sided PAPVC using multimodality cardiac imaging. 相似文献
90.
D Whitford Y Gao G J Pielak R J Williams G L McLendon F Sherman 《European journal of biochemistry》1991,200(2):359-367
An internal water molecule (designated WAT166) is found in iso-1-cytochrome c which is part of a redox-state-dependent hydrogen bond network. The position of this water molecule with respect to the polypeptide fold can be altered or even displaced by site-directed mutagenesis leading to structural perturbations and associated changes in redox potential. Using saturation transfer 1H-NMR methods, this study measures changes in the electron transfer reactivity for three variants of yeast iso-1-cytochromes c in which the position of this water molecule is altered. In particular, the reverse electron transfer rate is measured within a complex formed between either wild-type or variant yeast iso-1-cytochromes c and the tryptic fragment of bovine liver microsomal cytochrome b5. For three variants of yeast iso-1-cytochrome c the rate constants measured by saturation transfer are wild-type (Asn52, E0 = 270 mV, kex = 0.3 s-1), Asn52----Ala (E0 = 240 mV, kex = 0.6 s-1), Asn52----Ile (E0 = 220 mV, kex = 1.0 s-1). The first-order rates are compared with that of a fourth variant Phe82----Gly which has been measured previously (E0 = 220 mV, kex = 0.7 s-1). An analysis of the variation in the observed cross exchange rate using Marcus theory shows that these changes can be predicted quantitatively by the shift in redox potential that accompanies mutagenesis. So, although the perturbation of the internal water molecule by mutagenesis alters both the structure and redox potential of cytochrome c, surprisingly it does not significantly influence the intrinsic electron transfer reactivity of the protein. Studies of the activation parameters suggests that a variation of temperature changes both delta G* and also the prefactor. These data are discussed in terms of models involving dynamic molecular recognition between proteins. 相似文献