921 resultados para Heat Stress
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Coordenao de Aperfeioamento de Pessoal de Nvel Superior (CAPES)
Manipulation of follicle development to ensure optimal oocyte quality and conception rates in cattle
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Over the last several decades, a number of therapies have been developed that manipulate ovarian follicle growth to improve oocyte quality and conception rates in cattle. Various strategies have been proposed to improve the responses to reproductive biotechnologies following timed artificial insemination (TAI), superovulation (SOV) or ovum pickup (OPU) programmes. During TAI protocols, final follicular growth and size of the ovulatory follicle are key factors that may significantly influence oocyte quality, ovulation, the uterine environment and consequently pregnancy outcomes. Progesterone concentrations during SOV protocols influence follicular growth, oocyte quality and embryo quality; therefore, several adjustments to SOV protocols have been proposed depending on the animal category and breed. In addition, the success of in vitro embryo production is directly related to the number and quality of cumulus oocyte complexes harvested by OPU. Control of follicle development has a significant impact on the OPU outcome. This article discusses a number of key points related to the manipulation of ovarian follicular growth to maximize oocyte quality and improve conception rates following TAI and embryo transfer of in vivo-and in vitro-derived embryos in cattle.
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Pregnant sows confinement systems were created in order to maximize the productivity, however there are problems concerning the animal welfare. The aim of this research was to evaluate pregnant sows in outdoors and in confinement systems in relation to the thermal environment and physiological animal responses. The experiment was conducted in a commercial farm in Monte Mor city, Sao Paulo, Brazil. The physiological evaluation was performed by recording physiological variables, such as respiratory frequency and skin temperature. Furthermore, variables like dry bulb temperature, wet bulb temperature, and black globe temperature were also evaluated to characterize the ambient by means of enthalpy and black globe humidity index. In each treatment six animals were evaluated. The experimental design was completely randomized in a split-plot version whose averages were compared by the Tukey test. The findings of the experiment revealed higher values for all the bioclimatic variables in the confined treatment. Hence, the outdoor system provided better thermal conditioning for pigs, resulting in a lower heat stress.
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The selection of reference genes used for data normalization to quantify gene expression by real-time PCR amplifications (qRT-PCR) is crucial for the accuracy of this technique. In spite of this, little information regarding such genes for qRT-PCR is available for gene expression analyses in pathogenic fungi. Thus, we investigated the suitability of eight candidate reference genes in isolates of the human dermatophyte Trichophyton rubrum subjected to several environmental challenges, such as drug exposure, interaction with human nail and skin, and heat stress. The stability of these genes was determined by geNorm, NormFinder and Best-Keeper programs. The gene with the most stable expression in the majority of the conditions tested was rpb2 (DNA-dependent RNA polymerase II), which was validated in three T. rubrum strains. Moreover, the combination of rpb2 and chs1 (chitin synthase) genes provided for the most reliable qRT-PCR data normalization in T. rubrum under a broad range of biological conditions. To the best of our knowledge this is the first report on the selection of reference genes for qRT-PCR data normalization in dermatophytes and the results of these studies should permit further analysis of gene expression under several experimental conditions, with improved accuracy and reliability.
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Liposoluble vitamin C derivatives, such as tetra-isopalmitoyl ascorbic acid (IPAA), are often used in dermocosmetic products due to their higher stability than vitamin C free form as well as its proposed effects in skin; however, there are no studies analyzing IPAA stability or its in vivo effects when present in dermocosmetic formulations. Thus, this study aimed to evaluate chemical stability and pre-clinical and clinical efficacy of dermocosmetic formulations containing IPAA in skin hydration and microrelief. Chemical stability of the formulations added with 1% IPAA was evaluated by heat stress during 35 days by HPLC. For pre-clinical evaluation, experimental formulations were topically applied on hairless skin mice during 5 days and animal skins were analyzed by non-invasive biophysic techniques (water content of stratum corneum, TEWL, viscoelasticity, and microrelief) and by histopathological studies. For clinical efficacy tests, the formulations were topically applied to the forearm and face of human volunteers, and 3 h and 15 days after applications, the skins were evaluated by the same non-invasive techniques mentioned before. Results showed that formulations containing IPAA had medium stability and had pronounced moisturizing effects on stratum corneum and on viable epidermis. These formulations also improved skin microrelief especially in relation to skin smoothness and roughness. (C) 2012 Elsevier B.V. All rights reserved.
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Global warming is a reality and its effects have been widely studied. However, the consequences for marine invertebrates remain poorly understood. Thus, the present study proposed to evaluate the effect of elevated temperature on the innate immune system of Antarctic sea urchin Sterechinus neumayeri. Sea urchins were collected nearby Brazilian Antarctic Station "Comandante Ferraz" and exposed to 0 (control), 2 and 4A degrees C for periods of 48 h, 2, 7 and 14 days. After the experimental periods, coelomic fluid was collected in order to perform the following analyses: coelomocytes differential counting, phagocytic response, adhesion and spreading coelomocytes assay, intranuclear iron crystalloid and ultra structural analysis of coelomocytes. The red sphere cell was considered a biomarker for heat stress, as they increased in acute stress. Besides that, a significant increase in phagocytic indexes was observed at 2A degrees C coinciding with a significant increase of intranuclear iron crystalloid at the same temperature and same time period. Furthermore, significant alterations in cell adhesion and spreading were observed in elevated temperatures. The ultra structural analysis of coelomocytes showed no significant difference across treatments. This was the first time that innate immune response alterations were observed in response to elevated temperature in a Polar echinoid.
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Ocean temperatures are rising throughout the world, making it necessary to evaluate the impact of these temperature changes on sea urchins, which are well-known bioindicators. This study evaluated the effect of an increase in temperature on the immune response of the subtidal Lytechinus variegatus and the intertidal Echinometra lucunter sea urchins. Both species were exposed to 20 (control), 25 and 30 C temperatures for 24 h, 2, 7 and 14 days. Counting of coelomocytes and assays on the phagocytic response, adhesion and spreading of coelomocytes were performed. Red and colorless sphere cells were considered biomarkers for heat stress. Moreover, a significant decrease in the phagocytic indices and a decrease in both cell adhesion and cell spreading were observed at 25 and 30 C for L. variegatus. For E. lucunter, the only alteration observed was for the cell proportions. This report shows how different species of sea urchins respond immunologically to rising temperatures
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[EN] BACKGROUND: A classic, unresolved physiological question is whether central cardiorespiratory and/or local skeletal muscle circulatory factors limit maximal aerobic capacity (VO2max) in humans. Severe heat stress drastically reduces VO2max, but the mechanisms have never been studied. METHODS AND RESULTS: To determine the main contributing factor that limits VO2max with and without heat stress, we measured hemodynamics in 8 healthy males performing intense upright cycling exercise until exhaustion starting with either high or normal skin and core temperatures (+10 degrees C and +1 degrees C). Heat stress reduced VO2max, 2-legged VO2, and time to fatigue by 0.4+/-0.1 L/min (8%), 0.5+/-0.2 L/min (11%), and 2.2+/-0.4 minutes (28%), respectively (all P<0.05), despite heart rate and core temperature reaching similar peak values. However, before exhaustion in both heat stress and normal conditions, cardiac output, leg blood flow, mean arterial pressure, and systemic and leg O2 delivery declined significantly (all 5% to 11%, P<0.05), yet arterial O2 content and leg vascular conductance remained unchanged. Despite increasing leg O2 extraction, leg VO2 declined 5% to 6% before exhaustion in both heat stress and normal conditions, accompanied by enhanced muscle lactate accumulation and ATP and creatine phosphate hydrolysis. CONCLUSIONS: These results demonstrate that in trained humans, severe heat stress reduces VO2max by accelerating the declines in cardiac output and mean arterial pressure that lead to decrements in exercising muscle blood flow, O2 delivery, and O2 uptake. Furthermore, the impaired systemic and skeletal muscle aerobic capacity that precedes fatigue with or without heat stress is largely related to the failure of the heart to maintain cardiac output and O2 delivery to locomotive muscle.
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60 strains (belonging to the genera Lactobacillus, Bifidobacterium, Leuconostoc and Enterococcus) were tested for their capacity to inhibit the growth of 3 strains of Campylobacter jejuni: Lactobacilli and bifidobacteria were left to grow in MRS or TPY broth at 37C overnight in anaerobic conditions; Campylobacter jejuni was inoculated in blood agar plates at 37C for 24-48 hours in microaerophilic conditions. The inhibition experiments were carried out in vitro using Spot agar test and Well diffusion assay techniques testing both cellular activity and that of the surnatant. 11 strains proved to inhibit the growth of Campylobacter jejuni. These strains were subsequently analised analised in order to evaluate the resistance to particular situations of stress which are found in the gastrointestinal tract and during the industrial transformation processes (Starvation stress, osmotic stress, heat stress, resistance to pH and to bile salts). Resistance to starvation stress: all strains seemed to resist the stress (except one strain). Resistance to osmotic stress: all strains were relatively resistant to the concentrations of 6% w/v of NaCl (except one strain). Resistance to heat stress: only one strain showed little resistance to the 55C temperature. Resistance to pH: In the presence of a low pH (2.5), many strains rapidly lost their viability after approximately 1 hour. Resistance to bile salts: Except for one strain, all strains seemed to be relatively resistant to the 2% w/v concentration of bile salts. Afterward, strains were identified by using phenotipic and molecular techniques. Phenotipic identification was carried out by using API 50 CHL (bioMrieux) and API 20 STREP identification system (bioMrieux); molecular identification with species-specific PCR: the molecular techniques confirmed the results by phenotipic identification. For testing the antibiotic resistance profile, bacterial strains were subcultured in MRS or TPY broth and incubated for 18 h at 37C under anaerobic conditions. Antibiotics tested (Tetracycline, Trimethoprim, Cefuroxime, Kanamycin, Chloramphenicol, Vancomycin, Ampycillin, Sterptomycin, Erythromycin) were diluted to the final concentrations of: 2,4,8,16,32,64,128,256 mg/ml. Then, 20 l fresh bacterial culture (final concentration in the plates approximately 106 cfu/ml) were added to 160 l MRS or TPY broth and 20 l antibiotic solution. As positive control the bacterial culture (20 ul) was added to broth (160 ul) and water (20 ul). Test was performed on plates P96, that after the inoculum were incubated for 24 h at 37oC, then the antibiotic resistance was determined by measuring the Optical Density (OD) at 620 nm with Multiscan EX. All strains showed a similar behaviour: resistance to all antibiotic tested. Further studies are needed.
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Wine grape must deal with serious problems due to the unfavorable climatic conditions resulted from global warming. High temperatures result in oxidative damages to grape vines. The excessive elevated temperatures are critical for grapevine productivity and survival and contribute to degradation of grape and wine quality and yield. Elevated temperature can negatively affect anthocyanin accumulation in red grape. Particularly, cv. Sangiovese was identified to be very sensitive to such condition. The quantitative real-time PCR analysis showed that flavonoid biosynthetic genes were slightly repressed by high temperature. Also, the heat stress repressed the expression of the transcription factor VvMYBA1 that activates the expression of UFGT. Moreover, high temperatures had repressing effects on the activity of the flavonoids biosynthetic enzymes PAL and UFGT.Anthocyanin accumulation in berry skin is due to the balance between its synthesis and oxidation. In grape cv. Sangiovese, the gene transcription and activity of peroxidases enzyme was elevated by heat stress as a defensive mechanism of ROS-scavenging. Among many isoforms of peroxidases genes, one gene (POD 1) was induced in Sangiovese under thermal stress condition. This gene was isolated and evaluated via the technique of genes transformation from grape to Petunia. Reduction in anthocyanins concentration and higher enzymatic activity of peroxidase was observed in POD 1 transformed Petunia after heat shock compared to untrasformed control. Moreover, in wine producing regions, it is inevitable for the grape growers to adopt some adaptive strategies to alleviate grape damages to abiotic stresses. Therefore, in this thesis, the technique of post veraison trimming was done to improve the coupling of phenolic and sugar ripening in Vitis vinifera L. cultivar Sangiovese. Trimming after veraison showed to be executable to slow down the rate of sugar accumulation in grape (to decrease the alcohol potential in wines) without evolution of the main berry flavonoids compounds.
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The present dissertation collects the results of three different research trials which have the common aim to understand the effects of swine welfare (both at farm level and during transport) on the main fresh and dry-cured meat characteristics. The first trial was carried out in order to compare the effects of illumination regimes differing in light duration or light intensity on meat and ham quality of Italian heavy pigs. The results of this trial support the conclusion that, within a moderate range of light intensity and given an appropriate dark period for animal rest, an increase of light duration or intensity above the minimum mandatory levels has no negative impact on carcass composition, meat or long-cured hams quality. The second trial was designed with the aim to investigate the effects of water restriction on growth traits, animal welfare and meat and ham quality of liquid-fed heavy pigs. Overall, the parameters analyzed as concerns growth rate, behavioural traits, blood, as well as carcass, fresh meat and cured hams quality were not affected by the absence of fresh drinking water. However, since liquid feeding did not suppress drinker use or drinker manipulation in the experimental groups, water restriction does not appear to be an applicable method to obtain a reduction of water waste. The third trial, which was carried out in Canada, tested the effectiveness of water sprinkling market-weight pigs (11510Kg BW) before and after transport in reducing the heat stress experienced under commercial transport conditions. Our results show that the water sprinkling protocol proposed may reduce heat stress during transport and improve pork quality, particularly in specific trailer compartments. This body of research supports the general conclusion that swine welfare could be improved in different scenarios through simple and cost-effective means, without negatively affecting the quality of the main animal-derived products.
Untersuchungen zur Funktion multipler DnaJ-Proteine in dem Cyanobakterium Synechocystis sp. PCC 6803
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Sowohl in Synechocystis sp. PCC 6803 als auch in anderen Cyanobakterien konnten multiple DnaJ-Proteine nachgewiesen werden, deren Funktion jedoch noch weitestgehend unverstanden ist. Im Rahmen dieser Arbeit wurden die Funktionen der multiplen DnaJ-Proteine von Synechocystis sp. charakterisiert. Das DnaJ-Protein, Sll0897 gehrt aufgrund seiner Domnenstruktur zu den Typ I-Proteinen, Slr0093 und Sll1933 zu den Typ II-Proteinen und Sll0909, Sll1011, Sll1384 und Sll1666 zu den Typ III DnaJ-Proteinen. Durch Komplementationsstudien des E. coli dnaJ-Stammes OD259 konnte eine Komplementation des Wachstumsdefekts bei hheren Temperaturen durch die Proteine Slr0093 und Sll0897 gezeigt werden. In Synechocystis war eine komplette Disruption von sll1933 nicht mglich, weshalb das Protein Sll1933 unter normalen Wachstumsbedingungen essentiell ist. Doppelte Insertionmutationen waren lediglich bei der Kombination der Gene sll0909 und sll1384 mglich. Untersuchungen des Wachstumsverhaltens der dnaJ-Disruptions-stmme unter Hitze- und Kltestressbedingungen zeigten, dass das Protein Sll0897 eine wichtige Funktion bei der Stressantwort in Synechocystis besitzt und unter Hitzestressbedingungen essentiell ist. Eine vollstndige Deletion des Gens sll0897 war Synechocystis sp. bereits unter normalen Wachstumsbedingungen nicht mglich. Bei den fr ein Wachstum mindestens notwendigen Domnen des Sll0897 handelt es sich um die charakteristische J-Domne und die Glycin-Phenylalanin-reiche Domne. Unter Hitzestressbedingungen ist das Volllngen-Protein Sll0897 fr ein Wachstum essentiell. rnNeben den in vivo Wachstumsexperimenten wurde eine Methode zur heterologen Expression der sieben DnaJ-Proteine in E. coli und einer nativen Reinigung von Slr0093, Sll0897, Sll0909 und Sll1666 etabliert. Untersuchungen zur Thermostabilitt der gereinigten Proteine zeigten fr das Slr0093 und Sll1666 einen reversiblen Prozess, wodurch sie auch nach dem Hitzestress noch als Faltungshelfer fungieren knnen. Bei den Proteinen Sll0897 und Sll0909 ist der Prozess jedoch nicht reversibel, so dass sie nach Hitzestresseinwirkung neu synthetisiert oder durch Chaperoneinwirkung korrekt gefaltet werden mssen. Die Affinitts-Pull-Down Analysen lieferten keine klaren Hinweise auf die DnaK-Interaktionspartner der Proteine Slr0093, Sll0897, Sll0909 und Sll1666, weshalb weitere Untersuchungen notwendig sind. Mit Hilfe der Gelfiltrationsanalysen konnten die errechneten molaren Massen der Proteine Slr0093 und Sll1666 besttigt und beide Proteine in einer monomeren Form nachgewiesen werden. Die DnaJ-Proteine Sll0897 und Sll0909 konnten in zwei oligomeren Zustnden detektiert werden. Analysen der ATPase-Aktivitt des DnaK2-Proteins alleine und des DnaK2-Proteins zusammen mit den DnaJ-Proteinen Slr0093, Sll0897, Sll0909 und Sll1666 zeigten eine Steigerung der ATP-Hydrolyserate bei der Interaktion von DnaK und DnaJ, wobei Sll0897 die grte Steigerung der ATPase-Aktivitt des DnaK2 induzierte.
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Eine funktionierende Proteinqualittskontrolle ist essenziell fr die Vitalitt einer Zelle. Das dynamische Gleichgewicht zwischen Proteinfaltung und -degradation wird von molekularen Chaperonen aufrechterhalten, deren Aktivitt wiederum durch die Interaktion mit zahlreichen Cochaperonen moduliert wird. Das Cochaperon CHIP ist ein zentraler Faktor in Proteintriage-Entscheidungsprozessen, da es als Ubiquitinligase Chaperonsubstrate dem Abbau zufhrt und somit die Chaperonmaschinerie direkt mit den Systemen der Proteindegradation verbindet. Um Polypeptide vor einem vorzeitigen Abbau zu schtzen, wird die destruktive Aktivitt von CHIP durch weitere Cochaperone reguliert. rnIn dieser Arbeit konnte die Hemmung der Ligaseaktivitt von CHIP durch das Cochaperon BAG2 mechanistisch erstmals in einem zellulren System nachgewiesen werden. Dazu wurde die humane IMR-90 Fibroblasten Zelllinie verwendet. Die Ubiquitinierungsaktivitt von CHIP wurde anhand von HSP72 als Modell-CHIP-Substrat untersucht. Durch die verringerte Ubiquitinierung, und damit dem reduzierten Abbau von HSP72, regulierte BAG2 dessen intrazellulre Proteinspiegel, ohne dabei selbst eine Hitzeschockantwort zu induzieren. berexprimiertes BAG2 wirkte sich trotz stabilisierter HSP72-Spiegel bei einem appliziertem Hitzestresses negativ auf die Zellvitalitt aus, vermutlich da BAG2 durch die Inhibition von CHIP-vermittelter Ubiquitinierung massiv in das Gleichgewicht zwischen Substratfaltung und -degradation eingreift.rnDa sich die Mechanismen der Proteinqualittskontrolle in der Alterung stark verndern und sich den wandelnden Bedingungen in der Zelle anpassen, wurde in einem zweiten Teil dieser Arbeit mit Hilfe des IMR-90 Zellsystems als etabliertes Modell zellulrer Seneszenz analysiert, inwieweit sich die Aktivitt und die Regulation von CHIP durch BAG2 in der zellulren Alterung ndern. In seneszenten Zellen war HSP72 erheblich weniger ubiquitiniert als in jungen Fibroblasten, was auf eine reduzierte CHIP-Aktivitt hinweist. Diese blieb jedoch durch BAG2 weiterhin modulierbar. Die Funktion von BAG2 als Inhibitor der Ubiquitinligase CHIP blieb demnach in seneszenten Zellen bestehen. In gealterten Fibroblasten regulierte BAG2 auerdem die Proteinspiegel des CHIP-Substrates und Seneszenzinitiators p53, was BAG2 eine mgliche Rolle in der Etablierung des Seneszenz-Phnotyps zuspricht. Weiterhin unterlagen die Proteinspiegel der beiden funktionell redundanten CHIP-Modulatoren BAG2 und HSPBP1 in der zellulren Alterung einer reziproken Regulation. In gealterten Musen trat die gegenlufige Vernderung der beiden Cochaperone gewebsspezifisch in der Lunge auf. Auerdem waren die BAG2-Proteinspiegel im Hippocampus gealterter Tiere signifikant erhht.rnZusammenfassend konnte anhand der erzielten Ergebnisse die Funktion von BAG2 als Inhibitor von CHIP im zellulren System besttigt werden. Auerdem durchlaufen die Aktivitt und die Regulation von CHIP einen seneszenzspezifischen Adaptationsprozess, welcher fr die Erhaltung der Proteostase in der Alterung relevant sein knnte und in welchem die Funktion von BAG2 als CHIP-Modulator mglicherweise eine wichtige Rolle spielt.rnZuknftige Studien knnten die komplexen Mechanismen weiterfhrend aufklren, mit denen CHIP-Aktivitt reguliert wird. Dies kann helfen, der altersbedingten Abnahme an proteostatischer Kontrolle entgegenzuwirken und aberrante Proteinaggregation in altersassoziierten Erkrankungen vorzubeugen.rn
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Die Proteinhomostase wird in der Zelle von drei Stoffwechselwegen reguliert: den molekularen Chaperonen, dem Ubiquitin-Proteasom-System und dem autophagosomalen Abbauweg. Die (Makro)Autophagie verpackt und transportiert zytosolische Komponenten in Autophagosomen zu den Lysosomen, wo sie abgebaut werden. Eine Strung dieses Abbauwegs wirkt auf die Proteostase.rnIn dieser Dissertation wurde C. elegans als Modellorganismus zur Erforschung von Proteinstabilitt genutzt. In einer RNAi-vermittelten Proteostase-Analyse von Chromosom I und ausgewhlter zustzlicher Gene wurde ein Wurmstamm, der ein Luc::GFP-Konstrukt im Muskel exprimiert, genutzt. Dieses Reporterprotein aggregiert unter Hitzestressbedingungen und diese Aggregation kann durch Modulatoren der Proteostase beeinflusst werden. Dabei wurden mgliche neue Faktoren der Proteinhomostase entdeckt. Durch weitere Experimente bei denen die Aggregation von PolyQ35::YFP im AM140-System, der Paralyse-Phnotyp und die Akkumulation Thioflavin S-gefrbter Aggregate von A42 im CL2006-Wurmstamm und die Effekte auf die Autophagie mittels eines GFP::LGG1-Konstrukt analysiert wurden, konnten rbg-1 und rbg-2 als neue Modulatoren der Proteinhomostase, insbesondere der Autophagie, identifiziert werden.rnIm Suger bilden beide Orthologe dieser Gene, RAB3GAP1 und RAB3GAP2 den heterodimeren RAB3GAP-Komplex, der bisher nur bekannt war fr die Stimulation der Umwandlung der GTP-gebundenen aktiven Form zur GDP-gebundenen inaktiven Form der RAB GTPase RAB3. In Immunoblot-Analysen und mikroskopischen Darstellungen im Sugersystem konnte gezeigt werden, dass die Effekte auf die Proteostase ber den autophagosomalen Abbauweg wirken. RAB3GAP1/2 wirken als positive Stimulatoren, wenn die Lipidierung von LC3-I und der autophagische Flux von LC3-II und p62/SQSTM1 betrachtet werden. Diese Effekte werden aber nicht ber die RAB GTPase RAB3 vermittelt. Die Proteine FEZ1 und FEZ2 haben einen antagonistischen Effekt auf die Autophagie und wenn alle vier Komponenten RAB3GAP1, RAB3GAP2, FEZ1 und FEZ2 zusammen herunter- oder hochreguliert werden, heben sich diese Effekte auf. In Co-Immunoprzipitationen und proteomischen Analysen konnte keine direkte Interaktion zwischen dem RAB3GAP-Komplex und FEZ1/2 oder zu anderen Autophagie-Genen nachgewiesen werden.rnHier konnte der RAB3GAP-Komplex funktionell mit Proteostase und Autophagie in C. elegans und Sugerzellen assoziiert werden. Dieser Komplex zeigt Einflsse auf die autophagosomale Biogenese indem sie die Proteostase und die Bildung von (pr)autophagosomalen Strukturen in C. elegans und die Lipidierung von LC3 und damit den autophagischen Flux der Autophagiesubstrate LC3-II und p62/SQSTM1 in Sugerzellen beeinflusst. Darber hinaus wirkt RAB3GAP der komplexen Autophagie-Unterdrckung durch FEZ1 und FEZ2 entgegen. Somit konnte gezeigt werden, dass RAB3GAP als neuartiger Faktor auf die autophagosomale Biogenese und somit auf die Proteostase wirkt.rn
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Climate models predict more frequent and more severe extreme events (e.g., heat waves, extended drought periods, flooding) in many regions for the next decades. The impact of adverse environmental conditions on crop plants is ecologically and economically relevant. This review is focused on drought and heat effects on physiological status and productivity of agronomically important plants. Stomatal opening represents an important regulatory mechanism during drought and heat stress since it influences simultaneously water loss via transpiration and CO2 diffusion into the leaf apoplast which further is utilized in photosynthesis. Along with the reversible short-term control of stomatal opening, stomata and leaf epidermis may produce waxy deposits and irreversibly down-regulate the stomatal conductance and non-stomatal transpiration. As a consequence photosynthesis will be negatively affected. Rubisco activasea key enzyme in keeping the Calvin cycle functionalis heat-sensitive and may become a limiting factor at elevated temperature. The accumulated reactive oxygen species (ROS) during stress represent an additional challenge under unfavorable conditions. Drought and heat cause accumulation of free amino acids which are partially converted into compatible solutes such as proline. This is accompanied by lower rates of both nitrate reduction and de novo amino acid biosynthesis. Protective proteins (e.g., dehydrins, chaperones, antioxidant enzymes or the key enzyme for proline biosynthesis) play an important role in leaves and may be present at higher levels under water deprivation or high temperatures. On the whole plant level, effects on long-distance translocation of solutes via xylem and phloem and on leaf senescence (e.g., anticipated, accelerated or delayed senescence) are important. The factors mentioned above are relevant for the overall performance of crops under drought and heat and must be considered for genotype selection and breeding programs.
