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41.
Alton G; Hasilik M; Niehues R; Panneerselvam K; Etchison JR; Fana F; Freeze HH 《Glycobiology》1998,8(3):285-295
Direct utilization of mannose for glycoprotein biosynthesis has not been
studied because cellular mannose is assumed to be derived entirely from
glucose. However, animal sera contain sufficient mannose to force uptake
through glucose-tolerant, mannose-specific transporters. Under
physiological conditions this transport system provides 75% of the mannose
for protein glycosylation in human hepatoma cells despite a 50- to 100-fold
higher concentration of glucose. This suggests that direct use of mannose
is more important than conversion from glucose. Consistent with this
finding the liver is low in phosphomannose isomerase activity
(fructose-6-P<->mannose-6-P), the key enzyme for supplying
glucose-derived mannose to the N-glycosylation pathway. [2- 3H] Mannose is
rapidly absorbed from the intestine of anesthetized rats and cleared from
the blood with a t1/2of 30 min. After a 30 min lag, label is incorporated
into plasma glycoproteins, and into glycoproteins of all organs during the
first hour. Most (87%) of the initial incorporation occurs in the liver,
but this decreases as radiolabeled plasma glycoproteins increase.
Radiolabel in glycoproteins also increases 2- to 6-fold in other organs
between 1-8 h, especially in lung, skeletal muscle, and heart. These organs
may take up hepatic- derived radiolabeled plasma glycoproteins.
Significantly, the brain, which is not exposed to plasma glycoproteins,
shows essentially no increase in radiolabel. These results suggest that
mammals use mannose transporters to deliver mannose from blood to the liver
and other organs for glycoprotein biosynthesis. Additionally, contrary to
expectations, most of the mannose for glycoprotein biosynthesis in cultured
hepatoma cells is derived from mannose, not glucose. Extracellular mannose
may also make a significant contribution to glycoprotein biosynthesis in
the intact organism.
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42.
The phylogeny and substitution rates of the mammalian X chromosome- located
and autosomal phosphoglycerate kinase and pyruvate dehydrogenase genes were
investigated. Compatibility analysis was used to show reticulate evolution
in these genes. Analysis of the marsupial, mouse, and human
phosphoglycerate kinase genes suggests that at least two recombination
events have taken place, one occurring about the time of the
placental-marsupial split involving exons 1-5 and the other before the
primate-rodent split involving exons 9-10. Similar analysis of the pyruvate
dehydrogenase genes indicates a recombination event involving exons 2-3 at
a time before the primate-rodent split and a gene conversion between exons
3-4 in the human somatic and testis- specific pyruvate dehydrogenase genes
after the primate-rodent split. This demonstrates that genetic exchange can
occur between paralogous genes at widely separated chromosomal locations.
Estimation of nucleotide substitution rates in these genes confirmed a
higher substitution rate in the pyruvate dehydrogenase genes. In the
phosphoglycerate kinase genes, there is no difference between the
substitution rates in mice and humans and between the X chromosome- and
autosome-located genes. A greater substitution rate was noted in the mouse
autosomal pyruvate dehydrogenase gene when compared with the other mouse
and human genes. This may be a result of either directional natural
selection or a relaxation of functional constraint at this specific gene.
相似文献
43.
Macaranga and Mallotus (Euphorbiaceae s.s.) are two closely related, large paleo(sub)tropical genera. To investigate the phylogenetic relationships between and within them and to determine the position of related genera belonging to the subtribe Rottlerinae, we sequenced one plastid (trnL-F) and three nuclear (ITS, ncpGS, phyC) markers for species representative of these genera. The analyses demonstrated the monophyly of Macaranga and the paraphyly of Mallotus and revealed three highly supported main clades. The genera Cordemoya and Deuteromallotus and the Mallotus sections Hancea and Oliganthae form a basal Cordemoya s.l. clade. The two other clades, the Macaranga clade and the Mallotus s.s. clade (the latter with Coccoceras, Neotrewia, Octospermum, and Trewia), are sister groups. In the Macaranga clade, two basal lineages (comprising mostly sect. Pseudorottlera) and a crown group with three geographically homogenous main clades were identified. The phylogeny of the Mallotus s.s. clade is less clear because of internal conflict in all four data sets. Many of the sections and informal infrageneric groups of Macaranga and Mallotus do not appear to be monophyletic. In both the Macaranga and Mallotus s.s. clades, the African and/or Madagascan taxa are nested in Asian clades, suggesting migrations or dispersals from Asia to Africa and Madagascar. 相似文献
44.
Henkens IR Mouchaers KT Vliegen HW van der Laarse WJ Swenne CA Maan AC Draisma HH Schalij I van der Wall EE Schalij MJ Vonk-Noordegraaf A 《American journal of physiology. Heart and circulatory physiology》2007,293(2):H1300-H1307
The study aim was to assess three-dimensional electrocardiogram (ECG) changes during development of pulmonary arterial hypertension (PAH). PAH was induced in male Wistar rats (n = 23) using monocrotaline (MCT; 40 mg/kg sc). Untreated healthy rats served as controls (n = 5). ECGs were recorded with an orthogonal three-lead system on days 0, 14, and 25 and analyzed with dedicated computer software. In addition, left ventricular (LV)-to-right ventricular (RV) fractional shortening ratio was determined using echocardiography. Invasively measured RV systolic pressure was 49 (SD 10) mmHg on day 14 and 64 (SD 10) mmHg on day 25 vs. 25 (SD 2) mmHg in controls (both P < 0.001). Baseline ECGs of controls and MCT rats were similar, and ECGs of controls did not change over time. In MCT rats, ECG changes were already present on day 14 but more explicit on day 25: increased RV electromotive forces decreased mean QRS-vector magnitude and changed QRS-axis orientation. Important changes in action potential duration distribution and repolarization sequence were reflected by a decreased spatial ventricular gradient magnitude and increased QRS-T spatial angle. On day 25, LV-to-RV fractional shortening ratio was increased, and RV hypertrophy was found, but not on day 14. In conclusion, developing PAH is characterized by early ECG changes preceding RV hypertrophy, whereas severe PAH is marked by profound ECG changes associated with anatomical and functional changes in the RV. Three-dimensional ECG analysis appears to be very sensitive to early changes in RV afterload. 相似文献
45.
Molecular phylogeny of two unusual brown algae,Phaeostrophion irregulare and Platysiphon glacialis,proposal of the Stschapoviales ord. nov. and Platysiphonaceae fam. nov., and a re‐examination of divergence times for brown algal orders 下载免费PDF全文
Hiroshi Kawai Takeaki Hanyuda Stefano G. A. Draisma Robert T. Wilce Robert A. Andersen 《Journal of phycology》2015,51(5):918-928
The molecular phylogeny of brown algae was examined using concatenated DNA sequences of seven chloroplast and mitochondrial genes (atpB, psaA, psaB, psbA, psbC, rbcL, and cox1). The study was carried out mostly from unialgal cultures; we included Phaeostrophion irregulare and Platysiphon glacialis because their ordinal taxonomic positions were unclear. Overall, the molecular phylogeny agreed with previously published studies, however, Platysiphon clustered with Halosiphon and Stschapovia and was paraphyletic with the Tilopteridales. Platysiphon resembled Stschapovia in showing remarkable morphological changes between young and mature thalli. Platysiphon, Halosiphon and Stschapovia also shared parenchymatous, terete, erect thalli with assimilatory filaments in whorls or on the distal end. Based on these results, we proposed a new order Stschapoviales and a new family Platysiphonaceae. We proposed to include Phaeostrophion in the Sphacelariales, and we emended the order to include this foliose member. Finally, using basal taxa not included in earlier studies, the origin and divergence times for brown algae were re‐investigated. Results showed that the Phaeophyceae branched from Schizocladiophyceae ~260 Ma during the Permian Period. The early diverging brown algae had isomorphic life histories, whereas the derived taxa with heteromorphic life histories evolved 155–110 Ma when they branched from the basal taxa. Based on these results, we propose that the development of heteromorphic life histories and their success in the temperate and cold‐water regions was induced by the development of the remarkable seasonality caused by the breakup of Pangaea. Most brown algal orders had diverged by roughly 60 Ma, around the last mass extinction event during the Cretaceous Period, and therefore a drastic climate change might have triggered the divergence of brown algae. 相似文献
46.
J van Dongen PE Slagboom HH Draisma NG Martin DI Boomsma 《Nature reviews. Genetics》2012,13(9):640-653
The classical twin study has been a powerful heuristic in biomedical, psychiatric and behavioural research for decades. Twin registries worldwide have collected biological material and longitudinal phenotypic data on tens of thousands of twins, providing a valuable resource for studying complex phenotypes and their underlying biology. In this Review, we consider the continuing value of twin studies in the current era of molecular genetic studies. We conclude that classical twin methods combined with novel technologies represent a powerful approach towards identifying and understanding the molecular pathways that underlie complex traits. 相似文献
47.
Preparation and some properties of isolated rat liver cells 总被引:4,自引:0,他引:4
48.
Background
Despite its clinical importance, a dearth of information exists on the cellular and molecular mechanisms that underpin brain stem death. A suitable neural substrate for mechanistic delineation on brain stem death resides in the rostral ventrolateral medulla (RVLM) because it is the origin of a life-and-death signal that sequentially increases (pro-life) and decreases (pro-death) to reflect the advancing central cardiovascular regulatory dysfunction during the progression towards brain stem death in critically ill patients. The present study evaluated the hypothesis that heme oxygnase-1 (HO-1) may play a pro-life role as an interposing signal between hypoxia-inducible factor-1 (HIF-1) and nitric oxide synthase I (NOS I)/protein kinase G (PKG) cascade in RVLM, which sustains central cardiovascular regulatory functions during brain stem death. 相似文献49.