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991.
Starch-branching enzyme IIa is required for proper diurnal cycling of starch in leaves of maize 总被引:2,自引:0,他引:2
Starch-branching enzyme (SBE), a glucosyl transferase, is required for the highly regular pattern of α-1,6 bonds in the amylopectin component of starch. In the absence of SBEIIa, as shown previously in the sbe2a mutant of maize (Zea mays), leaf starch has drastically reduced branching and the leaves exhibit a severe senescence-like phenotype. Detailed characterization of the maize sbe2a mutant revealed that SBEIIa is the primary active branching enzyme in the leaf and that in its absence plant growth is affected. Both seedling and mature sbe2a mutant leaves do not properly degrade starch during the night, resulting in hyperaccumulation. In mature sbe2a leaves, starch hyperaccumulation is greatest in visibly senescing regions but also observed in green tissue and is correlated to a drastic reduction in photosynthesis within the leaf. Starch granules from sbe2a leaves observed via scanning electron microscopy and transmission electron microscopy analyses are larger, irregular, and amorphous as compared with the highly regular, discoid starch granules observed in wild-type leaves. This appears to trigger premature senescence, as shown by an increased expression of genes encoding proteins known to be involved in senescence and programmed cell death processes. Together, these results indicate that SBEIIa is required for the proper diurnal cycling of transitory starch within the leaf and suggest that SBEIIa is necessary in producing an amylopectin structure amenable to degradation by starch metabolism enzymes. 相似文献
992.
The role of alpha-glucosidase in germinating barley grains 总被引:1,自引:0,他引:1
Stanley D Rejzek M Naested H Smedley M Otero S Fahy B Thorpe F Nash RJ Harwood W Svensson B Denyer K Field RA Smith AM 《Plant physiology》2011,155(2):932-943
The importance of α-glucosidase in the endosperm starch metabolism of barley (Hordeum vulgare) seedlings is poorly understood. The enzyme converts maltose to glucose (Glc), but in vitro studies indicate that it can also attack starch granules. To discover its role in vivo, we took complementary chemical-genetic and reverse-genetic approaches. We identified iminosugar inhibitors of a recombinant form of an α-glucosidase previously discovered in barley endosperm (ALPHA-GLUCOSIDASE97 [HvAGL97]), and applied four of them to germinating grains. All four decreased the Glc-to-maltose ratio in the endosperm 10 d after imbibition, implying inhibition of maltase activity. Three of the four inhibitors also reduced starch degradation and seedling growth, but the fourth did not affect these parameters. Inhibition of starch degradation was apparently not due to inhibition of amylases. Inhibition of seedling growth was primarily a direct effect of the inhibitors on roots and coleoptiles rather than an indirect effect of the inhibition of endosperm metabolism. It may reflect inhibition of glycoprotein-processing glucosidases in these organs. In transgenic seedlings carrying an RNA interference silencing cassette for HvAgl97, α-glucosidase activity was reduced by up to 50%. There was a large decrease in the Glc-to-maltose ratio in these lines but no effect on starch degradation or seedling growth. Our results suggest that the α-glucosidase HvAGL97 is the major endosperm enzyme catalyzing the conversion of maltose to Glc but is not required for starch degradation. However, the effects of three glucosidase inhibitors on starch degradation in the endosperm indicate the existence of unidentified glucosidase(s) required for this process. 相似文献
993.
994.
Many antagonistic species attack plants and consume specific plant parts. Understanding how these antagonists affect plant
fitness individually and in combination is an important research focus in ecology and evolution. We examined the individual
and combined effects of herbivory, nectar robbing, and pre-dispersal seed predation on male and female estimates of fitness
in the host plant Ipomopsis aggregata. By examining the effects of antagonists on plant traits, we were able to tease apart the direct consumptive effects of antagonists
versus the indirect effects mediated through changes in traits important to pollination. In a three-way factorial field experiment,
we manipulated herbivory, nectar robbing, and seed predation. Herbivory and seed predation reduced some male and female fitness
estimates, whereas plants tolerated the effects of robbing. The effects of herbivory, robbing, and seed predation were primarily
additive, and we found little evidence for non-additive effects of multiple antagonists on plant reproduction. Herbivory affected
plant reproduction through both direct consumptive effects and indirectly through changes in traits important to pollination
(i.e., nectar and phenological traits). Conversely, seed predators primarily had direct consumptive effects on plants. Our
results suggest that the effects of multiple antagonists on estimates of plant fitness can be additive, and investigating
which traits respond to damage can provide insight into how antagonists shape plant performance. 相似文献
995.
Analysis of an organism’s genetic diversity requires a method that gives reliable, reproducible results. Microsatellites are
robust markers, however, detection of allele sizes can be difficult with some systems as well as consistency among laboratories.
In this study, our two laboratories used 219 isolates of Phytophthora sojae to compare three microsatellite methods. Two capillary electrophoresis methods, the Applied Biosystems 3730 Genetic Analyzer
and the CEQ 8000 Genetic Analysis system, detected an average of 2.4-fold more alleles compared to gel electrophoresis with
a mean of 8.8 and 3.6 alleles per locus using capillary and gel methods, respectively. The two capillary methods were comparable,
although allele sizes differed consistently by an average of 3.2 bp across isolates. Differences between capillary methods
could be overcome if reference standard DNA genotypes are shared between collaborating laboratories. 相似文献
996.
Sproston EL Ogden ID MacRae M Dallas JF Sheppard SK Cody AJ Colles FM Wilson MJ Forbes KJ Strachan NJ 《Applied and environmental microbiology》2011,77(18):6579-6586
Campylobacter jejuni and C. coli were quantified and typed, using multilocus sequence typing (MLST), from fecal samples collected from a mixed cattle and sheep farm during summer. Cattle had a significantly higher prevalence than sheep (21.9% [74/338] and 14.0% [30/214], respectively), but both decreased over time. There were no differences in the average Campylobacter concentrations shed by cattle (600 CFU g(-1)) and sheep (820 CFU g(-1)), although sheep did show a significant temporal reduction in the number of Campylobacter organisms shed in their feces. A total of 21 different sequence types (STs) (97.7% C. jejuni, 2.3% C. coli) were isolated from cattle, and 9 different STs were isolated from sheep (40.6% C. jejuni, 59.4% C. coli). The Campylobacter population in cattle was relatively stable, and the frequencies of genotypes isolated showed little temporal variation. However, the composition of subtypes isolated from sheep did show significant temporal differences. The cattle and sheep consistently showed significant differences in their carriage of Campylobacter species, STs, and CCs despite the fact that both were exposed to the same farming environment. This work has highlighted the patterns of a Campylobacter population on a ruminant farm by identifying the existence of both temporal and between-host variations. 相似文献
997.
A major challenge facing studies of major histocompatibility complex (MHC) evolution in birds is the difficulty in genotyping
alleles at individual loci, and the consequent inability to investigate sequence variation and selection pressures for each
gene. In this study, four MHC class I loci were isolated from the red-billed gull (Larus scopulinus), representing both the first characterized MHCI genes within Charadriiformes (shorebirds, gulls, and allies) and the first
full-length MHCI sequences described outside Galloanserae (gamebirds + waterfowl). Complete multilocus genotypes were obtained
for 470 individuals using a combination of reference-strand conformation analysis and direct sequencing of gene-specific amplification
products, and variation of peptide-binding region (PBR) exons was surveyed for all loci. Each gene is transcribed and has
conserved sequence features characteristic of antigen-presenting MHCI molecules. However, higher allelic variation, a more
even allele frequency distribution, and evidence of positive selection acting on a larger number of PBR residues suggest that
only one locus (Lasc-UAA) functions as a major classical MHCI gene. Lasc-UBA, with more limited variation and PBR motifs that
encompass a subset of Lasc-UAA diversity, was assigned a putative minor classical function, whereas the divergent and largely
invariant binding-groove motifs of Lasc-UCA and -UDA are suggestive of nonclassical loci with specialized ligand-binding roles. 相似文献
998.
999.
Jonathan L. Payne Craig R. McClain Alison G. Boyer James H. Brown Seth Finnegan Micha? Kowalewski Richard A. Krause Jr. S. Kathleen Lyons Daniel W. McShea Philip M. Novack-Gottshall Felisa A. Smith Paula Spaeth Jennifer A. Stempien Steve C. Wang 《Photosynthesis research》2011,107(1):37-57
The high concentration of molecular oxygen in Earth??s atmosphere is arguably the most conspicuous and geologically important signature of life. Earth??s early atmosphere lacked oxygen; accumulation began after the evolution of oxygenic photosynthesis in cyanobacteria around 3.0?C2.5 billion years ago (Gya). Concentrations of oxygen have since varied, first reaching near-modern values ~600 million years ago (Mya). These fluctuations have been hypothesized to constrain many biological patterns, among them the evolution of body size. Here, we review the state of knowledge relating oxygen availability to body size. Laboratory studies increasingly illuminate the mechanisms by which organisms can adapt physiologically to the variation in oxygen availability, but the extent to which these findings can be extrapolated to evolutionary timescales remains poorly understood. Experiments confirm that animal size is limited by experimental hypoxia, but show that plant vegetative growth is enhanced due to reduced photorespiration at lower O2:CO2. Field studies of size distributions across extant higher taxa and individual species in the modern provide qualitative support for a correlation between animal and protist size and oxygen availability, but few allow prediction of maximum or mean size from oxygen concentrations in unstudied regions. There is qualitative support for a link between oxygen availability and body size from the fossil record of protists and animals, but there have been few quantitative analyses confirming or refuting this impression. As oxygen transport limits the thickness or volume-to-surface area ratio??rather than mass or volume??predictions of maximum possible size cannot be constructed simply from metabolic rate and oxygen availability. Thus, it remains difficult to confirm that the largest representatives of fossil or living taxa are limited by oxygen transport rather than other factors. Despite the challenges of integrating findings from experiments on model organisms, comparative observations across living species, and fossil specimens spanning millions to billions of years, numerous tractable avenues of research could greatly improve quantitative constraints on the role of oxygen in the macroevolutionary history of organismal size. 相似文献
1000.
Methanococcus maripaludis S2 is a methanogenic archaeon with a well-developed genetic system. Its mesophilic nature offers a simple system in which to perform complementation using bacterial and eukaryotic genes. Although information-processing systems in archaea are generally more similar to those in eukaryotes than those in bacteria, the order Methanococcales has a unique complement of DNA replication proteins, with multiple MCM (minichromosome maintenance) proteins and no obvious originbinding protein. A search for homologues of recombination and repair proteins in M. maripaludis has revealed a mixture of bacterial, eukaryotic and some archaeal-specific homologues. Some repair pathways appear to be completely absent, but it is possible that archaeal-specific proteins could carry out these functions. The replication, recombination and repair systems in M. maripaludis are an interesting mixture of eukaryotic and bacterial homologues and could provide a system for uncovering novel interactions between proteins from different domains of life. 相似文献