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91.
TRAPP complexes, which are large multimeric assemblies that function in membrane traffic, are guanine nucleotide exchange factors (GEFs) that activate the Rab GTPase Ypt1p. Here we measured rate and equilibrium constants that define the interaction of Ypt1p with guanine nucleotide (guanosine 5'-diphosphate and guanosine 5'-triphosphate/guanosine 5′-(β,γ-imido)triphosphate) and the core TRAPP subunits required for GEF activity. These parameters allowed us to identify the kinetic and thermodynamic bases by which TRAPP catalyzes nucleotide exchange from Ypt1p. Nucleotide dissociation from Ypt1p is slow (∼ 10− 4 s− 1) and accelerated > 1000-fold by TRAPP. Acceleration of nucleotide exchange by TRAPP occurs via a predominantly Mg2+-independent pathway. Thermodynamic linkage analysis indicates that TRAPP weakens nucleotide affinity by < 80-fold and vice versa, in contrast to most other characterized GEF systems that weaken nucleotide binding affinities by 4-6 orders of magnitude. The overall net changes in nucleotide binding affinities are small because TRAPP accelerates both nucleotide binding and dissociation from Ypt1p. Weak thermodynamic coupling allows TRAPP, Ypt1p, and nucleotide to exist as a stable ternary complex, analogous to strain-sensing cytoskeleton motors. These results illustrate a novel strategy of guanine nucleotide exchange by TRAPP that is particularly suited for a multifunctional GEF involved in membrane traffic. 相似文献
92.
Victoria Sanchez-Vera Chandra Shekar Kenchappa Katarina Landberg Simon Bressendorff Stefan Schwarzbach Tom Martin 《Autophagy》2017,13(11):1939-1951
Autophagy, a major catabolic process in eukaryotes, was initially related to cell tolerance to nutrient depletion. In plants autophagy has also been widely related to tolerance to biotic and abiotic stresses (through the induction or repression of programmed cell death, PCD) as well as to promotion of developmentally regulated PCD, starch degradation or caloric restriction important for life span. Much less is known regarding its role in plant cell differentiation. Here we show that macroautophagy, the autophagy pathway driven by engulfment of cytoplasmic components by autophagosomes and its subsequent degradation in vacuoles, is highly active during germ cell differentiation in the early diverging land plant Physcomitrella patens. Our data provide evidence that suppression of ATG5-mediated autophagy results in reduced density of the egg cell-mediated mucilage that surrounds the mature egg, pointing toward a potential role of autophagy in extracellular mucilage formation. In addition, we found that ATG5- and ATG7-mediated autophagy is essential for the differentiation and cytoplasmic reduction of the flagellated motile sperm and hence for sperm fertility. The similarities between the need of macroautophagy for sperm differentiation in moss and mouse are striking, strongly pointing toward an ancestral function of autophagy not only as a protector against nutrient stress, but also in gamete differentiation. 相似文献
93.
94.
Taishi Hashiguchi Takanari Kobayashi Duriya Fongmoon Ajaya Kumar Shetty Shuji Mizumoto Nobuyuki Miyamoto Toshikazu Nakamura Shuhei Yamada Kazuyuki Sugahara 《Biochimica et Biophysica Acta (BBA)/General Subjects》2011
Background
Chondroitin sulfate (CS) is a ubiquitous component of the cell surface and extracellular matrix and its sugar backbone consists of repeating disaccharide units: D-glucuronic acid (GlcUA)β1-3N-acetyl-D-galactosamine (GalNAc). Although CS participates in diverse biological processes such as growth factor signaling and the nervous system's development, the mechanism underlying the functions is not well understood.Methods
CS was isolated from ray fish cartilage, an industrial waste, and its structure and neurite outgrowth-promoting (NOP) activity were analyzed to investigate a potential application to nerve regeneration.Results
The major disaccharide unit in the CS preparation was GlcUA-GalNAc(6-O-sulfate) (61.9%). Minor proportions of GlcUA-GalNAc(4-O-sulfate) (27.0%), GlcUA(2-O-sulfate)-GalNAc(6-O-sulfate) (8.5%), and GlcUA-GalNAc (2.7%) were also detected. The preparation showed NOP activity in vitro, and this activity was suppressed by antibodies against hepatocyte growth factor (HGF) and its receptor c-Met, suggesting the involvement of the HGF signaling pathway in the expression of the in vitro NOP activity of the CS preparation. The specific binding of HGF to the CS preparation was also demonstrated by surface plasmon resonance spectroscopy.Conclusions and general significance
The NOP activity of CS from ray cartilage was demonstrated to be expressed through the HGF signaling pathway, suggesting that ray cartilage CS may be useful for studying the cooperative function of CS and HGF. 相似文献95.
R. K. Saini K. V. Harish Prashanth N. P. Shetty P. Giridhar 《Acta Physiologiae Plantarum》2014,36(10):2695-2704
Moringa oleifera Lam. leaves are rich source of carotenoids (provitamin A) and α-tocopherol (vitamin E), and there is a scope for their further enhancement, through elicitor mediation, thereby a great potential for addressing these vitamins deficiency. In the present study, we report the efficacy of foliar administration of biotic elicitors, carboxy-methyl chitosan and chitosan, and signaling molecules, methyl jasmonate (MJ) and salicylic acid (SA) for enhancement of major carotenoids and α-tocopherol. Highest α-tocopherol content of 49.7 mg/100 g FW was recorded upon foliar application of 0.1 mM SA after 24 h of treatment, which represented a 187.5 % increase in comparison to the untreated control. Similarly, a maximum of 52.6 mg/100 g FW lutein, and 21.8 mg/100 g FW β-carotene content were observed in leaves after 24 h of treatment with MJ, which represented a 54.0 and 20.3 % increase in comparison to the untreated control, respectively. Among the major genes of carotenoid biosynthetic pathway, the expression of lycopene β-cyclase (LCY-β) was maximum influenced after treatment with elicitors and signaling molecules, compared to phytoene synthase and phytoene desaturase, suggesting the LCY-β-mediated enhancement in the production of β-carotene in elicitor treated M. oleifera leaves. Enhanced production of α-tocopherol under respective elicitor treatment was further supported by 2.0–2.7 fold up-regulation of γ-tocopherol methyl transferase, compared to untreated control. This is the first report on elicitor-mediated enhanced production of tocopherol and carotenoids in foliage of economically important food plant. 相似文献
96.
Beatrice Milon Yezhou Sun Weizhong Chang Todd Creasy Anup Mahurkar Amol Shetty Dmitry Nurminsky Maria Nurminskaya 《BMC genomics》2014,15(1)
Background
Chromatin compactness has been considered a major determinant of gene activity and has been associated with specific chromatin modifications in studies on a few individual genetic loci. At the same time, genome-wide patterns of open and closed chromatin have been understudied, and are at present largely predicted from chromatin modification and gene expression data. However the universal applicability of such predictions is not self-evident, and requires experimental verification.Results
We developed and implemented a high-throughput analysis for general chromatin sensitivity to DNase I which provides a comprehensive epigenomic assessment in a single assay. Contiguous domains of open and closed chromatin were identified by computational analysis of the data, and correlated to other genome annotations including predicted chromatin “states”, individual chromatin modifications, nuclear lamina interactions, and gene expression. While showing that the widely trusted predictions of chromatin structure are correct in the majority of cases, we detected diverse “exceptions” from the conventional rules. We found a profound paucity of chromatin modifications in a major fraction of closed chromatin, and identified a number of loci where chromatin configuration is opposite to that expected from modification and gene expression patterns. Further, we observed that chromatin of large introns tends to be closed even when the genes are expressed, and that a significant proportion of active genes including their promoters are located in closed chromatin.Conclusions
These findings reveal limitations of the existing predictive models, indicate novel mechanisms of epigenetic regulation, and provide important insights into genome organization and function.Electronic supplementary material
The online version of this article (doi:10.1186/1471-2164-15-988) contains supplementary material, which is available to authorized users. 相似文献97.
98.
99.
Cyclodextrin glucanotransferase (CGTase) from Bacillus circulans (ATCC 21783) was immobilised on a silica-based support: purified seasand. Although adsorption of 98% was achieved, considerable
desorption was encountered. This problem was minimised by crosslinking the adsorbed enzyme with glutaraldehyde. The immobilised
enzyme after crosslinking could be used repeatedly for cyclodextrin (CD) production in a batch process. The activity retention
was 80% at the end of the eighth cycle. The immobilised enzyme showed a shift in the pH optimum towards the alkaline side
and also an improvement in the pH stability compared to the free enzyme. It catalysed the formation of β-CD as a major product.
A significant amount of α-CD production was also observed on prolonged incubation.
Electronic Publication 相似文献
100.
S. R. Chatterjee J. P. Kamat S. J. Shetty T. P. A. Devasagayam 《Redox report : communications in free radical research》2013,18(3):183-188
SummaryFree radical-induced oxidative damage is involved in several pathological disorders. On the other hand, selective induction of peroxidation in diseased tissue is a promising approach to the treatment of cancer by photodynamic therapy. In this study we have used rat brain mitochondria as a model to evaluate the ability of a new water soluble porphyrin, 5,10,15,20-tetrakis[4-(carboxymethyleneoxy)phenyl]porphyrin (T4CPP), to induce peroxidative damage during photosensitization. Peroxidation in mitochondria, one of the crucial targets of the photodynamic effect, was assessed from the formation of thiobarbituric acid reactive substances and lipid hydroperoxides. The effect on mitochondrial function was estimated from the loss of a mitochondrial marker enzyme, succinate dehydrogenase (SDH). The photodamage was observed to be time- and concentration-dependent of T4CPP. Inhibition studies suggested involvement of singlet oxygen (1O2) and, to a lesser extent, of hydroxyl (OH), peroxyl (ROO?) and superoxide radicals (O2?) in the photodamage. The addition of γ-linolenic acid (a promoter of lipid peroxidation) to the system led to an enhancement of the T4CPP-induced peroxidative damage. Thus, our study indicated that the combination of γ-linolenic acid and T4CPP could enhance the photodynamic effect and has potential applications in photodynamic therapy. 相似文献