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71.
Tetsuo Harada Shiho TakenakaTakero Sekimoto Yuhki OhsumiMitsuru Nakajyo Chihiro Katagiri 《Journal of thermal biology》2011,36(6):299-305
This study was performed to clarify how weather and current dynamics affect the resistance to temperature change in the oceanic sea skaters, Halobates. Heat coma temperature (HCT) was measured for the adults and 5th instar larvae of four Halobates species collected from a fixed sampling location (12°00′N, 135°00′E ) in western tropical Pacific Ocean and from 13 locations in the eastern area of the India Ocean ranging from 08°00′N-06°00′S and 86°00-76°00′E. Both the gap temperature for heat coma (GTHC, mean±SD: 7.83±1.86 °C, n=32) and the heat coma temperature (HCP, 35.03±1.80 °C, n=32) of individuals collected from the Pacific Ocean, during the first half (10 days) of the sampling period at the fixed sampling point, were significantly higher than those during the second half (GTHC: 5.10±2.05 °C, n=63; HCP: 34.03±2.02 °C, n=63). The reduction in heat tolerance shown in the second half of the 20 day period may have been caused by a decrease in air temperature due to rainfall that occurred around the sampling point accompanied with the arrival of Typhoon No. 6.In the study of individuals collected from the Indian Ocean, significantly higher average GTHCs of >8 °C were recorded for the adult H. micans collected at 02°00′S and 06°00′S (89°00′E) than those at 0°00-8°00′N in the eastern Indian Ocean. Dynamic mixture of water from northern and southern currents occurs at 02°00-6°00′S of the Indian Ocean and might relate to such high heat tolerance.Temperature dynamics in the ocean habitat might directly affect the temperature resistance of the oceanic sea skaters. 相似文献
72.
73.
The Energy Independence and Security Act (EISA) of 2007 mandates US production of 136 billion L of biofuel by 2022. This target implies an appropriation of regional primary production for dedicated feedstocks at scales that may dramatically affect water supply, exacerbate existing water quality challenges, and force undesirable environmental resource trade offs. Using a comparative life cycle approach, we assess energy balances and water resource implications for four dedicated ethanol feedstocks – corn, sugarcane, sweet sorghum, and southern pine – in two southeastern states, Florida and Georgia, which are a presumed epicenter for future biofuel production. Net energy benefit ratios for ethanol and coproducts range were 1.26 for corn, 1.94 for sweet sorghum, 2.51 for sugarcane, and 2.97 for southern pine. Corn also has high nitrogen (N) and water demand (11.2 kg GJnet?1 and 188 m3 GJnet?1, respectively) compared with other feedstocks, making it a poor choice for regional ethanol production. Southern pine, in contrast, has relatively low N demand (0.4 kg GJnet?1) and negligible irrigation needs. However, it has comparatively low gross productivity, which results in large land area per unit ethanol production (208 m2 GJnet?1), and, by association, substantial indirect and incremental water use (51 m3 GJnet?1). Ultimately, all four feedstocks require substantial land (10.1, 3.1, 2.5, and 6.1 million ha for corn, sugarcane, sweet sorghum, and pine, respectively), annual N fertilization (3230, 574, 396, 109 million kg N) and annual total water (54 400, 20 840, 8840, and 14 970 million m3) resources when scaled up to meet EISA renewable fuel standards production goals. This production would, in turn, offset only 17.5% of regional gasoline consumption on a gross basis, and substantially less when evaluated on a net basis. Utilization of existing waste biomass sources may ameliorate these effects, but does not obviate the need for dedicated primary feedstock production. Careful scrutiny of environmental trade‐offs is necessary before embracing aggressive ethanol production mandates. 相似文献
74.
Pedro Henrique Monteiro Torres Gabriel Limaverde Soares Costa Sousa Pedro Geraldo Pascutti 《Proteins》2011,79(9):2684-2692
Endostatin is a potent antiangiogenic protein derived from the noncollagenous domain 1 (NC1) of collagen XVIII. The mechanism by which endostatin exerts its antiangiogenic effect is still incompletely understood. It has been shown that the 27 amino acid N‐terminal fragment of murine endostatin has antitumor, antimigration, and antipermeability activities comparable to the full soluble protein. To understand how this peptide can exert such elaborate function, we performed structural analysis using molecular dynamics to evaluate the behavior of this fragment in aqueous environment. Here, we show that the N‐terminal peptide of murine endostatin is able to assume a well‐defined structure, folding into a zinc‐dependent β‐hairpin conformation. Analyzing the folding mechanism, we were able to understand why the N‐terminal peptide of human endostatin with the same length failed to acquire a stable conformation. Conversely, we were able to predict the successful folding of the R4Q mutant and of a shorter form of the human peptide with 25 residues. Finally, we show that the β‐hairpin conformation assumed by the zinc‐bound peptide of murine endostatin has a high structural similarity with fragments of another family of angiogenesis inhibitors: the integrin‐binding portion of the NC1 domain of collagen IV. Indeed, our docking simulations show that arresten, canstatin, and the endostatin peptide bind to the same spot of αVβ3 integrin, suggesting similar interactions via a common binding site on this receptor. Proteins 2011;. © 2011 Wiley‐Liss, Inc. 相似文献
75.
Many mammals have specialized nose-tips with glabrous and often wet skin, called rhinaria. The function of the rhinarium is unknown in most species. Rhinaria differ not only in shape and skin structure, but also in skin temperature. They are considerably colder in carnivorans than in herbivorous artio- and perissodactyls. Domestic dogs are carnivorans and their noses often feel cold, such that they can be used as an abundant and easily accessible model species. We performed a study on rhinarium temperature in dogs under various ambient temperatures as well as in different behavioral and physiological contexts, breeds, and age groups. The rhinaria of adult, alert, and comfortable dogs are colder than ambient temperature from 30 °C (approximately 5 °C colder) down to a break point at about 15 °C. At an ambient temperature of 0 °C, rhinarium temperature is approximately 8 °C and the decrease in skin surface temperature with decreasing ambient temperature has not yet leveled off. The dog rhinarium warms up under a number of circumstances. In contrast to the continuously warm rhinaria of herbivores, our results suggest strongly that the cold state is the operating state of the dog rhinarium. 相似文献
76.
Gap Dynamics in a Seagrass Landscape 总被引:2,自引:0,他引:2
We investigated gap dynamics within a shallow subtidal landscape characterized by seagrass vegetation and examined the relationship
between gap formation and selected physical factors. The study was conducted over 2 y by using a biannual mapping of seagrass
and water depth across an 48,800-m2 area in Tampa Bay, Florida. In addition, monthly sediment deposition or erosion was recorded at 96 locations within the landscape.
Gaps represented from 2.4% to 5.7% of the seagrass landscape, and all were within monospecific stands of Halodule wrightii. Gaps ranged in size from 10 to 305 m2 and most frequently decreased in size over time. Most gaps were small and short lived (less than 6-mo duration), but the
second age group most frequently recorded was at least 1.5 y old. No new species of seagrass invaded the gaps with Halodule replacing itself 100% of the time. Gaps were recorded over the entire range of water depths within the landscape. Neither
gap area nor persistence of gaps was related to water depth. However gap area was associated positively with the number of
extreme sedimentation events. Gaps originated not only from removal of interior vegetation (similar to classic gaps) but also
from differential growth of the seagrass margin (similar to edaphic gaps). Distinct seasonal components to the mode of formation
were detected with interior-produced gaps originating primarily in the winter and margin gaps most commonly during summer.
These results combine to illustrate the importance of large-scale studies with fine-scale resolution for deciphering unique
features of seagrass landscape dynamics. Our historical information suggests that a static enumeration of gaps may not provide
an accurate assessment of disturbance intensity in this system, and the seagrass mosaic probably is explained best by a combination
of disturbance regimes and edaphic factors, such as sediment stability. Moreover, we suggest that even in areas characterized
by monospecific stands of vegetation and over short or moderate time periods, gaps indirectly may influence community structure
and ecosystem function via modification of habitat arrangement.
Received 17 September 1998; accepted 26 April 1999. 相似文献
77.
Backbone dynamics and conformational properties of drug peptide salmon calcitonin have been studied in aqueous solution using nuclear magnetic resonance (NMR). Although salmon calcitonin (sCT) is largely unfolded in solution (as has been reported in several circular dichroism studies), the secondary Hα chemical shifts and three bond HN–Hα coupling constants indicated that most of the residues of the peptide are populating the α‐helical region of the Ramachandran (?, ψ) map. Further, the peptide in solution has been found to exhibit multiple conformational states exchanging slowly on the NMR timescale (102–103 s?1), inferred by the multiple chemical shift assignments in the region Leu4–Leu12 and around Pro23 (for residues Gln20–Tyr22 and Arg24). Possibly, these slowly exchanging multiple conformational states might inhibit symmetric self‐association of the peptide and, in part, may account for its reduced aggregation propensity compared with human calcitonin (which lacks this property). The 15N NMR‐relaxation data revealed (i) the presence of slow (microsecond‐to‐millisecond) timescale dynamics in the N‐terminal region (Cys1–Ser5) and core residues His17 and Asn26 and (ii) the presence of high frequency (nanosecond‐to‐picosecond) motions in the C‐terminal arm. Put together, the various results suggested that (i) the flexible C‐terminal of sCT (from Thr25–Thr31) is involved in identification of specific target receptors, (ii) whereas the N‐terminal of sCT (from Cys1–Gln20) in solution – exhibiting significant amount of conformational plasticity and strong bias towards biologically active α‐helical structure – facilitates favorable conformational adaptations while interacting with the intermembrane domains of these target receptors. Thus, we believe that the structural and dynamics features of sCT presented here will be useful guiding attributes for the rational design of biologically active sCT analogs. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd. 相似文献
78.
The motional properties of the cyclic enterobacterial common antigen (cECA), consisting of four trisaccharide repeat units, have been investigated by carbon-13 spin relaxation. R1, R2 and NOE relaxation parameters have been determined at three magnetic field strengths. The data were interpreted within the model-free framework to include the possibility of motional anisotropy, and overall as well as local dynamical parameters were fitted separately for each ring carbon. The motional anisotropy was addressed by assuming an axially symmetric diffusion tensor, which was fitted from the overall correlation times for each site in the sugar residues using the previously determined crystal structure. The data were found to be in agreement with an oblate shape of the molecule, and the values for Diso and
were in good agreement with translational diffusion data and an estimate based on calculation of the moment of inertia tensor, respectively. The local dynamics in cECA were found to be residue-dependent. Somewhat lower values for the order parameters, as well as longer local correlation times, were observed for the -linked ManNAcA residue compared to the two -linked residues in the trisaccharide repeat unit. 相似文献
79.
Mayra Domínguez-Pérez Arturo Simoni-Nieves Patricia Rosales Natalia Nuño-Lámbarri Mónica Rosas-Lemus Verónica Souza Roxana U. Miranda Leticia Bucio Salvador Uribe Carvajal Jens U. Marquardt Daekwan Seo Luis E. Gomez-Quiroz María Concepción Gutiérrez-Ruiz 《Journal of cellular physiology》2019,234(5):7213-7223
80.
Falconi M Chillemi G Di Marino D D'Annessa I Morozzo della Rocca B Palmieri L Desideri A 《Proteins》2006,65(3):681-691
The mitochondrial adenosine diphosphate/adenosine triphosphate (ADP/ATP) carrier has been recently crystallized in complex with its specific inhibitor carboxyatractyloside (CATR). In the crystal structure, the six-transmembrane helix bundle that defines the nucleotide translocation pathway is closed on the matrix side due to sharp kinks in the odd-numbered helices. The closed conformation is further sealed by the loops protruding into the matrix that interact through an intricate network of charge-pairs. To gain insight into its structural dynamics we performed molecular dynamics (MD) simulation studies of the ADP/ATP carrier with and without its cocrystallized inhibitor. The two trajectories sampled a conformational space around two different configurations characterized by distinct salt-bridge networks with a significant shift from inter- to intrarepeat bonding on the matrix side in the absence of CATR. Analysis of the geometrical parameters defining the transmembrane helices showed that even-numbered helices can undergo a face rotation, whereas odd-numbered helices can undergo a change in the wobble angle with a conserved proline acting as molecular hinge. Our results provide new information on the dynamical properties of the ADP/ATP carrier and for the first time yield a detailed picture of a stable carrier conformation in absence of the inhibitor. 相似文献