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81.
The fitness costs and benefits at different positions in fishshoals, bird flocks, and insect swarms can be asymmetric; agroup's edge may provide more feeding opportunities, but alsogreater predator risk. Animals make trade-offs between theseselection pressures based on individual differences in traitsincluding satiation level, ability to avoid predators, and sex.Previous studies did not evaluate the impact of sex on grouppositioning in these types of nonhierarchical, nonmating groupscalled congregations. A controlled laboratory experiment wasconducted, using marked whirligig beetles (Coleoptera: Gyrinidae),to test for sexual segregation and why different sexes mightchoose different positions. Soon after a disturbance, malesoften were found at the periphery and females at the centerof groups. There was also an overlying influence of feedingon position; satiated individuals moved toward the center andhungry individuals toward the periphery. Several minutes aftera disturbance, sexual segregation disappeared, but segregationdue to hunger persisted. Sexual segregation in this study wasbest explained by the predator avoidance hypothesis, not theenergy needs hypothesis. Females weighed less than males; thismay make them more at risk to predation because of reduced swimmingspeed or less mechanical protection from their exoskeleton.No difference between the sexes was found in the volume of theirdefensive chemicals. This is one of the first studies to showthat sex influences position of individuals within simple nonmatinggroups (congregations) and suggests that more attention shouldbe given to positional sex differences within shoals, flocks,herds, and swarms. 相似文献
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84.
Jia-Yee S. Yap Thore Rohner Abigail Greenfield Marlien Van Der Merwe Hannah McPherson Wendy Glenn Geoff Kornfeld Elessa Marendy Annie Y. H. Pan Alan Wilton Marc R. Wilkins Maurizio Rossetto Sven K. Delaney 《PloS one》2015,10(6)
The Wollemi pine (Wollemia nobilis) is a rare Southern conifer with striking morphological similarity to fossil pines. A small population of W. nobilis was discovered in 1994 in a remote canyon system in the Wollemi National Park (near Sydney, Australia). This population contains fewer than 100 individuals and is critically endangered. Previous genetic studies of the Wollemi pine have investigated its evolutionary relationship with other pines in the family Araucariaceae, and have suggested that the Wollemi pine genome contains little or no variation. However, these studies were performed prior to the widespread use of genome sequencing, and their conclusions were based on a limited fraction of the Wollemi pine genome. In this study, we address this problem by determining the entire sequence of the W. nobilis chloroplast genome. A detailed analysis of the structure of the genome is presented, and the evolution of the genome is inferred by comparison with the chloroplast sequences of other members of the Araucariaceae and the related family Podocarpaceae. Pairwise alignments of whole genome sequences, and the presence of unique pseudogenes, gene duplications and insertions in W. nobilis and Araucariaceae, indicate that the W. nobilis chloroplast genome is most similar to that of its sister taxon Agathis. However, the W. nobilis genome contains an unusually high number of repetitive sequences, and these could be used in future studies to investigate and conserve any remnant genetic diversity in the Wollemi pine. 相似文献
85.
Hana Dosedělová Jana Dumková Hervé Lesot Kristyna Glocová Michaela Kunová Abigail S. Tucker Iva Veselá Pavel Krej?í Franti?ek Tichy Ale? Hampl Marcela Buchtová 《PloS one》2015,10(5)
The successional dental lamina (SDL) plays an essential role in the development of replacement teeth in diphyodont and polyphyodont animals. A morphologically similar structure, the rudimental successional dental lamina (RSDL), has been described in monophyodont (only one tooth generation) lizards on the lingual side of the developing functional tooth. This rudimentary lamina regresses, which has been proposed to play a role in preventing the formation of future generations of teeth. A similar rudimentary lingual structure has been reported associated with the first molar in the monophyodont mouse, and we show that this structure is common to all murine molars. Intriguingly, a lingual lamina is also observed on the non-replacing molars of other diphyodont mammals (pig and hedgehog), initially appearing very similar to the successional dental lamina on the replacing teeth. We have analyzed the morphological as well as ultrastructural changes that occur during the development and loss of this molar lamina in the mouse, from its initiation at late embryonic stages to its disappearance at postnatal stages. We show that loss appears to be driven by a reduction in cell proliferation, down-regulation of the progenitor marker Sox2, with only a small number of cells undergoing programmed cell death. The lingual lamina was associated with the dental stalk, a short epithelial connection between the tooth germ and the oral epithelium. The dental stalk remained in contact with the oral epithelium throughout tooth development up to eruption when connective tissue and numerous capillaries progressively invaded the dental stalk. The buccal side of the dental stalk underwent keratinisation and became part of the gingival epithelium, while most of the lingual cells underwent programmed cell death and the tissue directly above the erupting tooth was shed into the oral cavity. 相似文献
86.
Patrick D. Brandt Susi Sturzenegger Varvayanis Tracey Baas Amanda F. Bolgioni Janet Alder Kimberly A. Petrie Isabel Dominguez Abigail M. Brown C. Abigail Stayart Harinder Singh Audra Van Wart Christine S. Chow Ambika Mathur Barbara M. Schreiber David A. Fruman Brent Bowden Christopher A. Wiesen Yvonne M. Golightly Chris E. Holmquist Daniel Arneman Joshua D. Hall Linda E. Hyman Kathleen L. Gould Roger Chalkley Patrick J. Brennwald Rebekah L. Layton 《PLoS biology》2021,19(7)
87.
Yanqin Liu John A. Carver Lam H. Ho Abigail K. Elias Ian F. Musgrave Tara L. Pukala 《Biochemical and biophysical research communications》2014
Protein misfolding causes serious biological malfunction, resulting in diseases including Alzheimer’s disease, Parkinson’s disease and cataract. Molecules which inhibit protein misfolding are a promising avenue to explore as therapeutics for the treatment of these diseases. In the present study, thioflavin T fluorescence and transmission electron microscopy experiments demonstrated that hemin prevents amyloid fibril formation of kappa-casein, amyloid beta peptide and α-synuclein by blocking β-sheet structure assembly which is essential in fibril aggregation. Further, inhibition of fibril formation by hemin significantly reduces the cytotoxicity caused by fibrillar amyloid beta peptide in vitro. Interestingly, hemin degrades partially formed amyloid fibrils and prevents further aggregation to mature fibrils. Light scattering assay results revealed that hemin also prevents protein amorphous aggregation of alcohol dehydrogenase, catalase and γs-crystallin. In summary, hemin is a potent agent which generically stabilises proteins against aggregation, and has potential as a key molecule for the development of therapeutics for protein misfolding diseases. 相似文献
88.
Abigail Perez-Valdespino Yunfeng Li Barbara Setlow Sonali Ghosh David Pan George Korza Florence E. Feeherry Christopher J. Doona Yong-Qing Li Bing Hao Peter Setlow 《Journal of bacteriology》2014,196(11):2077-2088
The Bacillus subtilis
spoVAEa and spoVAF genes are expressed in developing spores as members of the spoVA operon, which encodes proteins essential for the uptake and release of dipicolinic acid (DPA) during spore formation and germination. SpoVAF is likely an integral inner spore membrane protein and exhibits sequence identity to A subunits of the spore''s nutrient germinant receptors (GRs), while SpoVAEa is a soluble protein with no obvious signals to allow its passage across a membrane. However, like SpoVAD, SpoVAEa is present on the outer surface of the spore''s inner membrane, as SpoVAEa was accessible to an external biotinylation agent in spores and SpoVAEa disappeared in parallel with SpoVAD during proteinase K treatment of germinated spores. SpoVAEa and SpoVAD were also distributed similarly in fractions of disrupted dormant spores. Unlike spoVAD, spoVAEa is absent from the genomes of some spore-forming members of the Bacillales and Clostridiales orders, although SpoVAEa''s amino acid sequence is conserved in species containing spoVAEa. B. subtilis strains lacking SpoVAF or SpoVAEa and SpoVAF sporulated normally, and the spores had normal DPA levels. Spores lacking SpoVAF or SpoVAEa and SpoVAF also germinated normally with non-GR-dependent germinants but more slowly than wild-type spores with GR-dependent germinants, and this germination defect was complemented by ectopic expression of the missing proteins. 相似文献
89.
Eukaryotic translation initiation is an intricate process involving at least 11 formally classified eIFs (eukaryotic initiation factors), which, together with the ribosome, comprise one of the largest molecular machines in the cell. Studying such huge macromolecular complexes presents many challenges which cannot readily be overcome by traditional molecular and structural methods. Increasingly, novel quantitative techniques are being used to further dissect such complex assembly pathways. One area of methodology involves the labelling of ribosomal subunits and/or eIFs with fluorophores and the use of techniques such as FRET (F?rster resonance energy transfer) and FA (fluorescence anisotropy). The applicability of such techniques in such a complex system has been greatly enhanced by recent methodological developments. In the present mini-review, we introduce these quantitative fluorescence methods and discuss the impact they are beginning to have on the field. 相似文献
90.
Wei-Ling Wen Abigail L. Stevenson Chun-Yu Wang Hsiang-Ju Chen Stephen E. Kearsey Chris J. Norbury Stephen Watt Jürg B?hler Shao-Win Wang 《Nucleic acids research》2010,38(19):6555-6566
Multiple KH-domain proteins, collectively known as vigilins, are evolutionarily highly conserved proteins that are present in eukaryotic organisms from yeast to metazoa. Proposed roles for vigilins include chromosome segregation, messenger RNA (mRNA) metabolism, translation and tRNA transport. As a step toward understanding its biological function, we have identified the fission yeast vigilin, designated Vgl1, and have investigated its role in cellular response to environmental stress. Unlike its counterpart in Saccharomyces cerevisiae, we found no indication that Vgl1 is required for the maintenance of cell ploidy in Schizosaccharomyces pombe. Instead, Vgl1 is required for cell survival under thermal stress, and vgl1Δ mutants lose their viability more rapidly than wild-type cells when incubated at high temperature. As for Scp160 in S. cerevisiae, Vgl1 bound polysomes accumulated at endoplasmic reticulum (ER) but in a microtubule-independent manner. Under thermal stress, Vgl1 is rapidly relocalized from the ER to cytoplasmic foci that are distinct from P-bodies but contain stress granule markers such as poly(A)-binding protein and components of the translation initiation factor eIF3. Together, these observations demonstrated in S. pombe the presence of RNA granules with similar composition as mammalian stress granules and identified Vgl1 as a novel component that required for cell survival under thermal stress. 相似文献