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71.
L-ascorbic acid metabolism in the ascorbate-deficient arabidopsis mutant vtc1. 总被引:4,自引:0,他引:4
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The biosynthesis of L-ascorbic acid (vitamin C) is not well understood in plants. The ozone-sensitive Arabidopsis thaliana mutant vitamin c-1 (vtc1; formerly known as soz1) is deficient in ascorbic acid, accumulating approximately 30% of wild-type levels. This deficiency could result from elevated catabolism or decreased biosynthesis. No differences that could account for the deficiency were found in the activities of enzymes that catalyze the oxidation or reduction of ascorbic acid. The absolute rate of ascorbic acid turnover is actually less in vtc1 than in wild type; however, the turnover rate relative to the pool of ascorbic acid is not significantly different. The results from [U-14C]Glc labeling experiments suggest that the deficiency is the result of a biosynthetic defect: less L-[14C]ascorbic acid as a percentage of total soluble 14C accumulates in vtc1 than in wild type. The feeding of two putative biosynthetic intermediates, D-glucosone and L-sorbosone, had no positive effect on ascorbic acid levels in either genotype. The vtc1 defect does not appear to be the result of a deficiency in L-galactono-1,4-lactone dehydrogenase, an enzyme able to convert L-galactono-1,4-lactone to ascorbic acid. 相似文献
72.
Phylogenetic evidence for horizontal transmission of group I introns in the nuclear ribosomal DNA of mushroom-forming fungi 总被引:7,自引:3,他引:4
Group I introns were discovered inserted at the same position in the
nuclear small-subunit ribosomal DNA (nuc-ssu-rDNA) in several species of
homobasidiomycetes (mushroom-forming fungi). Based on conserved intron
sequences, a pair of intron-specific primers was designed for PCR
amplification and sequencing of intron-containing rDNA repeats. Using the
intron-specific primers together with flanking rDNA primers, a PCR assay
was conducted to determine presence or absence of introns in 39 species of
homobasidiomycetes. Introns were confined to the genera Panellus,
Clavicorona, and Lentinellus. Phylogenetic analyses of nuc-ssu-rDNA and
mitochondrial ssu-rDNA sequences suggest that Clavicorona and Lentinellus
are closely related, but that Panellus is not closely related to these. The
simplest explanation for the distribution of the introns is that they have
been twice independently gained via horizontal transmission, once on the
lineage leading to Panellus, and once on the lineage leading to Lentinellus
and Clavicorona. BLAST searches using the introns from Panellus and
Lentinellus as query sequences retrieved 16 other similar group I introns
of nuc-ssu-rDNA and nuclear large-subunit rDNA (nuc-lsu-rDNA) from fungal
and green algal hosts. Phylogenetic analyses of intron sequences suggest
that the mushroom introns are monophyletic, and are nested within a clade
that contains four other introns that insert at the same position as the
mushroom introns, two from different groups of fungi and two from green
algae. The distribution of host lineages and insertion sites among the
introns suggests that horizontal and vertical transmission, homing, and
transposition have been factors in intron evolution. As distinctive,
heritable features of nuclear rDNAs in certain lineages, group I introns
have promise as phylogenetic markers. Nevertheless, the possibility of
horizontal transmission and homing also suggest that their use poses
certain pitfalls.
相似文献
73.
Annalijn I. Conklin Pablo Monsivais Kay-Tee Khaw Nicholas J. Wareham Nita G. Forouhi 《PLoS medicine》2016,13(7)
BackgroundDiet is a key modifiable risk factor for multiple chronic conditions, including type 2 diabetes (T2D). Consuming a range of foods from the five major food groups is advocated as critical to healthy eating, but the association of diversity across major food groups with T2D is not clear and the relationship of within-food-group diversity is unknown. In addition, there is a growing price gap between more and less healthy foods, which may limit the uptake of varied diets. The current study had two aims: first, to examine the association of reported diversity of intake of food groups as well as their subtypes with risk of developing T2D, and second, to estimate the monetary cost associated with dietary diversity.ConclusionsA diet characterized by regular consumption of all five food groups and by greater variety of dairy, fruit, and vegetable subtypes, appears important for a reduced risk of diabetes. However, such a diet is more expensive. Public health efforts to prevent diabetes should include food price policies to promote healthier, more varied diets. 相似文献
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Pim van Hooft Herbert HT Prins Wayne M Getz Anna E Jolles Sipke E van Wieren Barend J Greyling Paul D van Helden Armanda DS Bastos 《BMC evolutionary biology》2010,10(1):106
Background
The Y-chromosomal diversity in the African buffalo (Syncerus caffer) population of Kruger National Park (KNP) is characterized by rainfall-driven haplotype frequency shifts between year cohorts. Stable Y-chromosomal polymorphism is difficult to reconcile with haplotype frequency variations without assuming frequency-dependent selection or specific interactions in the population dynamics of X- and Y-chromosomal genes, since otherwise the fittest haplotype would inevitably sweep to fixation. Stable Y-chromosomal polymorphism due one of these factors only seems possible when there are Y-chromosomal distorters of an equal sex ratio, which act by negatively affecting X-gametes, or Y-chromosomal suppressors of a female-biased sex ratio. These sex-ratio (SR) genes modify (suppress) gamete transmission in their own favour at a fitness cost, allowing for stable polymorphism. 相似文献77.
The native green macroalga Dictyosphaeria cavernosa dominated most of the reef slope habitat in Kāne‘ohe Bay, Hawai‘i for 40 years prior to 2006 and had displaced corals from
the habitats they created. This has been one of the most oft-cited examples of a phase shift occurring on a coral reef. After
decades of relatively constant, high abundance of the alga, percent cover declined dramatically throughout the bay between
February and June 2006. The sudden decrease in cover of this alga appears to be the result of an unusually protracted cloudy,
rainy period in March 2006, which may have reduced irradiance and caused the alga to lose weight. Corals and red macroalgae
living at the same depths and in some of the same habitats were apparently not affected by this 42-day period of rain and
overcast skies. Competition between corals and D. cavernosa for space on reef slopes has been virtually eliminated by the death of this alga, but the unstable rubble formations, which
remain in much of the area formerly covered by D. cavernosa may not be conducive to rapid increase in cover by the remaining corals or to establishment by coral recruits. Two years
later, there was still no recovery of D. cavernosa. This represents a rare example of decline in macroalgal dominance on a reef and a partial reversal, possibly only temporary,
of a phase shift. 相似文献
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