The Experts below are selected from a list of 9123 Experts worldwide ranked by ideXlab platform
Stephen T Trumbo - One of the best experts on this subject based on the ideXlab platform.
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infanticide sexual selection and Task specialization in a biparental burying beetle
Animal Behaviour, 2006Co-Authors: Stephen T TrumboAbstract:Burying beetles (Nicrophorus spp.) compete for access to small vertebrate carrion, a highly valued resource. Intruders that take over a carcass will kill young of residents and use the carcass for a replacement brood. To examine whether sexual selection alters interactions with intruders, I staged encounters in which resource competition was the only important motivator for infanticide and then compared outcomes to those in which both sexual selection and resource competition might operate. On carcasses with first-instar larvae, a single resident male or female N. orbicollis was confronted with either a heterospecific or conspecific intruder of either sex (at this stage, a carcass retains 44–75% of its original value if used for a replacement brood). Single males defended their brood significantly better than did single females. Males appear to be efficient Task Specialists, having both a greater tendency and greater ability to guard the brood. When intruders were heterospecifics, there was no interaction between the two independent experimental variables of sex of defender and sex of intruder. When intruders were conspecifics, however, there was a significant interaction such that infanticide was more common when a defender confronted an intruder of the opposite sex. That is, when a defender had the opportunity to recoup some of its losses from infanticide by participating in a replacement brood with the intruder (opportunity for sexual selection), the probability of infanticide increased. A follow-up experiment staged at the second and early third instar indicated that infanticidal take-overs are quite common when single females defend second instars, but are infrequent when single females defend third instars, or when pairs defend second or third instars. Other measures of reproductive success (number and mass of broods in trials not including take-overs) were similar for single females and pairs. I hypothesize that the threat of infanticide and the inability of a parent to fully compensate for the absence of a partner that is a Task Specialist promote extended biparental care in burying beetles.
Uri Alon - One of the best experts on this subject based on the ideXlab platform.
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continuum of gene expression profiles provides spatial division of labor within a differentiated cell type
Cell systems, 2019Co-Authors: Miri Adler, Yael Korem Kohanim, Avichai Tendler, Avi Mayo, Uri AlonAbstract:Summary Single-cell gene expression reveals the diversity within a differentiated cell type. Often, cells of the same type show a continuum of gene-expression patterns. The origin of such continuum gene-expression patterns is unclear. To address this, we develop a theory to understand how a continuum provides division of labor in a tissue in which cells collectively contribute to several Tasks. We find that a continuum is optimal when there are spatial gradients in the tissue that affect the performance in each Task. The continuum is bounded inside a polyhedron whose vertices are expression profiles optimal at each Task. We test this using single-cell gene expression for intestinal villi and liver hepatocytes, which form a curved 1D trajectory and a full 3D tetrahedron in gene-expression space, respectively. We infer the Tasks for both cell types and characterize the spatial zonation of the Task-Specialist cells. This approach can be generally applied to other tissues.
Miri Adler - One of the best experts on this subject based on the ideXlab platform.
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continuum of gene expression profiles provides spatial division of labor within a differentiated cell type
Cell systems, 2019Co-Authors: Miri Adler, Yael Korem Kohanim, Avichai Tendler, Avi Mayo, Uri AlonAbstract:Summary Single-cell gene expression reveals the diversity within a differentiated cell type. Often, cells of the same type show a continuum of gene-expression patterns. The origin of such continuum gene-expression patterns is unclear. To address this, we develop a theory to understand how a continuum provides division of labor in a tissue in which cells collectively contribute to several Tasks. We find that a continuum is optimal when there are spatial gradients in the tissue that affect the performance in each Task. The continuum is bounded inside a polyhedron whose vertices are expression profiles optimal at each Task. We test this using single-cell gene expression for intestinal villi and liver hepatocytes, which form a curved 1D trajectory and a full 3D tetrahedron in gene-expression space, respectively. We infer the Tasks for both cell types and characterize the spatial zonation of the Task-Specialist cells. This approach can be generally applied to other tissues.
Yael Korem Kohanim - One of the best experts on this subject based on the ideXlab platform.
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continuum of gene expression profiles provides spatial division of labor within a differentiated cell type
Cell systems, 2019Co-Authors: Miri Adler, Yael Korem Kohanim, Avichai Tendler, Avi Mayo, Uri AlonAbstract:Summary Single-cell gene expression reveals the diversity within a differentiated cell type. Often, cells of the same type show a continuum of gene-expression patterns. The origin of such continuum gene-expression patterns is unclear. To address this, we develop a theory to understand how a continuum provides division of labor in a tissue in which cells collectively contribute to several Tasks. We find that a continuum is optimal when there are spatial gradients in the tissue that affect the performance in each Task. The continuum is bounded inside a polyhedron whose vertices are expression profiles optimal at each Task. We test this using single-cell gene expression for intestinal villi and liver hepatocytes, which form a curved 1D trajectory and a full 3D tetrahedron in gene-expression space, respectively. We infer the Tasks for both cell types and characterize the spatial zonation of the Task-Specialist cells. This approach can be generally applied to other tissues.
Avichai Tendler - One of the best experts on this subject based on the ideXlab platform.
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continuum of gene expression profiles provides spatial division of labor within a differentiated cell type
Cell systems, 2019Co-Authors: Miri Adler, Yael Korem Kohanim, Avichai Tendler, Avi Mayo, Uri AlonAbstract:Summary Single-cell gene expression reveals the diversity within a differentiated cell type. Often, cells of the same type show a continuum of gene-expression patterns. The origin of such continuum gene-expression patterns is unclear. To address this, we develop a theory to understand how a continuum provides division of labor in a tissue in which cells collectively contribute to several Tasks. We find that a continuum is optimal when there are spatial gradients in the tissue that affect the performance in each Task. The continuum is bounded inside a polyhedron whose vertices are expression profiles optimal at each Task. We test this using single-cell gene expression for intestinal villi and liver hepatocytes, which form a curved 1D trajectory and a full 3D tetrahedron in gene-expression space, respectively. We infer the Tasks for both cell types and characterize the spatial zonation of the Task-Specialist cells. This approach can be generally applied to other tissues.
