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991.
992.
The receptors for the fungal elicitor EIX (LeEix1 and LeEix2) belong to a class of leucine-rich repeat cell-surface glycoproteins with a signal for receptor-mediated endocytosis. Both receptors are able to bind the EIX elicitor while only the LeEix2 receptor mediates defense responses. We show that LeEix1 acts as a decoy receptor and attenuates EIX induced internalization and signaling of the LeEix2 receptor. We demonstrate that BAK1 binds LeEix1 but not LeEix2. In plants where BAK1 was silenced, LeEix1 was no longer able to attenuate plant responses to EIX, indicating that BAK1 is required for this attenuation. We suggest that LeEix1 functions as a decoy receptor for LeEix2, a function which requires the kinase activity of BAK1.Key words: LRR-RLP, LeEix, Bak1, decoy receptor, endocytosisLeucine-rich-repeat receptor proteins (LRR-RLPs) have been linked with defense response signaling in plants.1–5 The tomato Cf genes which mediate resistance to Cladosporium fulvum encode LRR-RLPs. Additional LRR-RLPs include the tomato Verticillium (Ve) resistant proteins6,7 and the LeEix proteins.8 The Eix receptors (LeEix1 and LeEix2) contain a signal for receptor-mediated endocytosis, which we have previously shown to be essential for proper induction of defense responses.9,10 Both receptors are able to bind Eix, but only LeEix2 mediates EIX-induced defense.8 In a recent work we demonstrate that LeEix1 attenuates Eix-induced internalization and signaling, and heterodimerizes with LeEix2 upon application of Eix.11 Our work further shows that the brassinosteroid co-receptor Bri-Associated Kinase 1 (BAK1) binds LeEix1 but not LeEix2. In BAK1-silenced plants, LeEix1 was no longer able to attenuate plant responses to Eix, indicating that BAK1 is required for this attenuation and leading to the hypothesis that LeEix1 functions as a decoy receptor for LeEix2.11 相似文献
993.
Luke R. Bailey Ian Bool Iman Akbar Muhtianda Panji Gusti Akbar Adi Karya Kangkuso Analuddin Stephanie K. Courtney Jones 《Austral ecology》2023,48(4):822-832
Tropical ecosystems are biodiverse and ecologically complex, supporting nearly half of the global herpetofauna. Ecological interactions play a role in the maintenance of species diversity with a range of ecological interactions occurring within and among species in tropical ecosystems. Incidental observations of ecological interactions provide an important contribution to the understanding of the ecology and natural history of species. Here, we report an interspecific interaction between distant taxa, the Four-Clawed Gecko (Gehyra mutilata) utilizing an active communal nesting site and shared nesting resources with two vespid wasp species (Eumeninae and Polistinae), where previous observations documented species utilizing abandoned nesting resources. This is the first known record of three species actively cohabitating in a shared nesting resource. This observation, with one or all species positively benefiting from the ecological interaction, likely indicates a mutualistic or commensal ecological interaction. Incidental observations such as the present study are likely to reveal that interspecific ecological interactions including communal nesting are more widespread than previously thought and the co-utilization of existing nesting resources presents an advantage for taxa. Observations such as these provide the basis for understanding the complex network of ecological interactions occurring in tropical rainforests. 相似文献
994.
Yael Grunwald Noa Wigoda Nir Sade Adi Yaaran Tanmayee Torne Sanbon Chaka Gosa Nava Moran Menachem Moshelion 《The Plant journal : for cell and molecular biology》2021,106(2):301-313
The leaf vascular bundle sheath cells (BSCs) that tightly envelop the leaf veins, are a selective and dynamic barrier to xylem sap water and solutes radially entering the mesophyll cells. Under normal conditions, xylem sap pH below 6 is presumably important for driving and regulating the transmembranal solute transport. Having discovered recently a differentially high expression of a BSC proton pump, AHA2, we now test the hypothesis that it regulates the xylem sap pH and leaf radial water fluxes. We monitored the xylem sap pH in the veins of detached leaves of wild-type Arabidopsis, AHA mutants and aha2 mutants complemented with AHA2 gene solely in BSCs. We tested an AHA inhibitor (vanadate) and stimulator (fusicoccin), and different pH buffers. We monitored their impact on the xylem sap pH and the leaf hydraulic conductance (Kleaf), and the effect of pH on the water osmotic permeability (Pf) of isolated BSCs protoplasts. We found that AHA2 is necessary for xylem sap acidification, and in turn, for elevating Kleaf. Conversely, AHA2 knockdown, which alkalinized the xylem sap, or, buffering its pH to 7.5, reduced Kleaf, and elevating external pH to 7.5 decreased the BSCs Pf. All these showed a causative link between AHA2 activity in BSCs and leaf radial hydraulic water conductance. 相似文献
995.
Danyelle A. Ferreira Yaman Tayyar Adi Idris Nigel A.J. McMillan 《生物化学与生物物理学报:癌评论》2021,1875(1):188476
BackgroundIt is well-known that certain cancers are caused by viruses. However, viral oncogenesis is complex and only a small fraction of the infected people develop cancer. Indeed, a number of environmental factors can contribute to virally infected cells developing cancer hallmarks, promoting tumorigenesis.Scope of reviewThe hit-and-run theory proposes that viruses facilitate the accumulation of mutations and promote genomic instability until the virus becomes dispensable for tumour maintenance. Indeed, several studies have reported viral genome, episome and/or oncogene loss in tumour cells without losing malignant phenotype.Major conclusionsThe current evidence supports the clear contribution of certain viruses to develop cancers. Importantly, the evidence supporting the sustained maintenance of malignancy after the loss of viral “presence” is sufficient to support the hit-and-run hypothesis of viral cancer development. Long-term tracking of vaccination outcome over the decades will test this theory.General significanceIf the hit-and-run theory is true, viruses might cause more cancers than previously thought and will have implications in the prevention of many cancers through implementing vaccination programs. 相似文献
996.
Sofia Sizikov Ilia Burgsdorf Kim Marie Handley Matan Lahyani Markus Haber Laura Steindler 《Environmental microbiology》2020,22(11):4669-4688
Bacteria of the phylum Verrucomicrobia are ubiquitous in marine environments and can be found as free-living organisms or as symbionts of eukaryotic hosts. Little is known about host-associated Verrucomicrobia in the marine environment. Here we reconstructed two genomes of symbiotic Verrucomicrobia from bacterial metagenomes derived from the Atlanto-Mediterranean sponge Petrosia ficiformis and three genomes from strains that we isolated from offshore seawater of the Eastern Mediterranean Sea. Phylogenomic analysis of these five strains indicated that they are all members of Verrucomicrobia subdivision 4, order Opitutales. We compared these novel sponge-associated and seawater-isolated genomes to closely related Verrucomicrobia. Genomic analysis revealed that Planctomycetes-Verrucomicrobia microcompartment gene clusters are enriched in the genomes of symbiotic Opitutales including sponge symbionts but not in free-living ones. We hypothesize that in sponge symbionts these microcompartments are used for degradation of l -fucose and l -rhamnose, which are components of algal and bacterial cell walls and therefore may be found at high concentrations in the sponge tissue. Furthermore, we observed an enrichment of toxin–antitoxin modules in symbiotic Opitutales. We suggest that, in sponges, verrucomicrobial symbionts utilize these modules as a defence mechanism against antimicrobial activity deriving from the abundant microbial community co-inhabiting the host. 相似文献
997.
998.
Robert T. Fahey Jeff W. Atkins Christopher M. Gough Brady S. Hardiman Lucas E. Nave Jason M. Tallant Knute J. Nadehoffer Christoph Vogel Cynthia M. Scheuermann Ellen Stuart‐Haëntjens Lisa T. Haber Alexander T. Fotis Raleigh Ricart Peter S. Curtis 《Ecology letters》2019,22(12):2049-2059
Vegetation canopy structure is a fundamental characteristic of terrestrial ecosystems that defines vegetation types and drives ecosystem functioning. We use the multivariate structural trait composition of vegetation canopies to classify ecosystems within a global canopy structure spectrum. Across the temperate forest sub‐set of this spectrum, we assess gradients in canopy structural traits, characterise canopy structural types (CST) and evaluate drivers and functional consequences of canopy structural variation. We derive CSTs from multivariate canopy structure data, illustrating variation along three primary structural axes and resolution into six largely distinct and functionally relevant CSTs. Our results illustrate that within‐ecosystem successional processes and disturbance legacies can produce variation in canopy structure similar to that associated with sub‐continental variation in forest types and eco‐climatic zones. The potential to classify ecosystems into CSTs based on suites of structural traits represents an important advance in understanding and modelling structure–function relationships in vegetated ecosystems. 相似文献
999.
1000.
James Griesemer Matthew H. Haber Grant Yamashita Lisa Gannett 《Biology & philosophy》2005,20(2-3):517-544
The themes, problems and challenges of developmental systems theory as described in Cycles of Contingency are discussed. We argue in favor of a robust approach to philosophical and scientific problems of extended heredity and the
integration of behavior, development, inheritance, and evolution. Problems with Sterelny's proposal to evaluate inheritance
systems using his `Hoyle criteria' are discussed and critically evaluated. Additional support for a developmental systems
perspective is sought in evolutionary studies of performance and behavior modulation of fitness. 相似文献