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51.
52.
Jaswinder Sharma Geetha Nelluru Mary Ann Wilson Michael V Johnston Mir Ahamed Hossain 《ASN neuro》2011,3(2)
Neuronal death pathways following hypoxia–ischaemia are sexually dimorphic, but the underlying mechanisms are unclear. We examined cell death mechanisms during OGD (oxygen-glucose deprivation) followed by Reox (reoxygenation) in segregated male (XY) and female (XX) mouse primary CGNs (cerebellar granule neurons) that are WT (wild-type) or Parp-1 [poly(ADP-ribose) polymerase 1] KO (knockout). Exposure of CGNs to OGD (1.5 h)/Reox (7 h) caused cell death in XY and XX neurons, but cell death during Reox was greater in XX neurons. ATP levels were significantly lower after OGD/Reox in WT-XX neurons than in XY neurons; this difference was eliminated in Parp-1 KO-XX neurons. AIF (apoptosis-inducing factor) was released from mitochondria and translocated to the nucleus by 1 h exclusively in WT-XY neurons. In contrast, there was a release of Cyt C (cytochrome C) from mitochondria in WT-XX and Parp-1 KO neurons of both sexes; delayed activation of caspase 3 was observed in the same three groups. Thus deletion of Parp-1 shunted cell death towards caspase 3-dependent apoptosis. Delayed activation of caspase 8 was also observed in all groups after OGD/Reox, but was much greater in XX neurons, and caspase 8 translocated to the nucleus in XX neurons only. Caspase 8 activation may contribute to increased XX neuronal death during Reox, via caspase 3 activation. Thus, OGD/Reox induces death of XY neurons via a PARP-1-AIF-dependent mechanism, but blockade of PARP-1-AIF pathway shifts neuronal death towards a caspase-dependent mechanism. In XX neurons, OGD/Reox caused prolonged depletion of ATP and delayed activation of caspase 8 and caspase 3, culminating in greater cell death during Reox. 相似文献
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Summary Chromosome 17ps was identified in the mother and daughter but not the father of a normal family with no history of congenital abnormality. In addition to G-band and Ag-NOR staining, previously used to study this abnormality, we applied N-band and C-band techniques. Our results showed that 17ps has no demonstrable ribosomal cistron or constitutive heterochromatin. 相似文献
55.
The transmembrane (TM) domain of the major histocompatibility complex (MHC) class II-associated invariant chain (Ii) has long been implicated in both correct folding and function of the MHC class II complex. To function correctly, Ii must form a trimer, and the TM domain is one of the domains thought to stabilize the trimeric state. Specific mutations in the TM domain have been shown previously to disrupt MHC class II functions such as mature complex formation and antigen presentation, possibly due to disruption of Ii TM helix-helix interactions. Although this hypothesis has been reported several times in the literature, thus far no experimental measurements have been made to explore the relationship between TM domain structure and TM mutations that affect Ii function. We have applied biophysical and computational methods to study the folding and assembly of the Ii TM domain in isolation and find that the TM domain strongly self-associates. According to analytical ultracentrifugation analyses, the primary oligomeric state for this TM domain is a strongly associated trimer with a dissociation constant of approximately 120 nM in DPC micelles. We have also examined the effect of functionally important mutations of glutamine and threonine residues in the TM domain on its structure, providing results that now link the disruption of TM helix interactions to previously reported losses of Ii function. 相似文献
56.
In 2002, severe acute respiratory syndrome (SARS)-coronavirus (CoV) appeared as a novel human virus with high similarity to bat coronaviruses. However, while SARS-CoV uses the human angiotensin-converting enzyme 2 (ACE2) receptor for cellular entry, no coronavirus isolated from bats appears to use ACE2. Here we show that signatures of recurrent positive selection in the bat ACE2 gene map almost perfectly to known SARS-CoV interaction surfaces. Our data indicate that ACE2 utilization preceded the emergence of SARS-CoV-like viruses from bats. 相似文献
57.
Rouhana L Wang L Buter N Kwak JE Schiltz CA Gonzalez T Kelley AE Landry CF Wickens M 《RNA (New York, N.Y.)》2005,11(7):1117-1130
Cytoplasmic polyadenylation is important in the control of mRNA stability and translation, and for early animal development and synaptic plasticity. Here, we focus on vertebrate poly(A) polymerases that are members of the recently described GLD2 family. We identify and characterize two closely related GLD2 proteins in Xenopus oocytes, and show that they possess PAP activity in vivo and in vitro and that they bind known polyadenylation factors and mRNAs known to receive poly(A) during development. We propose that at least two distinct polyadenylation complexes exist in Xenopus oocytes, one of which contains GLD2; the other, maskin and Pumilio. GLD2 protein interacts with the polyadenylation factor, CPEB, in a conserved manner. mRNAs that encode GLD2 in mammals are expressed in many tissues. In the brain, mouse, and human GLD2 mRNAs are abundant in anatomical regions necessary for long-term cognitive and emotional learning. In the hippocampus, mouse GLD2 mRNA colocalizes with CPEB1 and Pumilio1 mRNAs, both of which are likely involved in synaptic plasticity. We suggest that mammalian GLD2 poly(A) polymerases are important in synaptic translation, and in polyadenylation throughout the soma. 相似文献
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Glucosinolates are sulfur-rich secondary metabolites characteristic of the Brassicales order. Transport of glucosinolates
was suggested more than 30 years ago through a number of studies which indicated that glucosinolates are produced in maternal
tissue and subsequently transported to the seed. These observations laid the foundation for numerous studies on glucosinolate
transport which have provided a wealth of information on biochemical properties of glucosinolate transport, source–sink relationships
between organs and on the transport routes of glucosinolates. However, most of the conclusions and hypotheses proposed in
these studies have not been discussed in context of each other to provide a complete overview of the current state of knowledge
on glucosinolate transport. In this review, we are thus piecing together the glucosinolate pathway by presenting and critically
analyzing all data on glucosinolate research. Furthermore, the data on glucosinolate transport is considered in the light
of the newest findings on glucosinolate synthesis and distribution. The aim is to provide a comprehensive and updated set
of hypotheses which may prove useful in directing future research on glucosinolate transport. 相似文献
60.
A Deletion Map of cyc1 Mutants and Its Correspondence to Mutationally Altered Iso-1-Cytochromes c of Yeast 下载免费PDF全文
Fred Sherman Mary Jackson Susan W. Liebman Ann Marie Schweingruber John W. Stewart 《Genetics》1975,81(1):51-73
Mutants arising spontaneously from sporulated cultures of certain strains of yeast, Saccharomyces cerevisiae, contained deletions of the CYC1 gene which controls the primary structure of iso-1-cytochrome c. At least 60 different kinds of deletions were uncovered among the 104 deletions examined and these ranged in length from those encompassing only two adjacent point mutants to those encompassing at least the entire CYC1 gene. X-ray-induced recombination rates of crosses involving these deletions and cyc1 point mutants resulted in the assignment of 211 point mutants to 47 mutational sites and made it possible to unambiguously order 40 of these 47 sites. Except for one mutant, cyc1-15, there was a strict colinear relationship between the deletion map and the positions of 13 sites that were previously determined by amino acid alterations in iso-1-cytochromes c from intragenic revertants. 相似文献