TY - JOUR AB - Imprinted genes are expressed primarily or exclusively from either the maternal or paternal allele, a phenomenon that occurs in flowering plants and mammals. Flowering plant imprinted gene expression has been described primarily in endosperm, a terminal nutritive tissue consumed by the embryo during seed development or after germination. Imprinted expression in Arabidopsis thaliana endosperm is orchestrated by differences in cytosine DNA methylation between the paternal and maternal genomes as well as by Polycomb group proteins. Currently, only 11 imprinted A. thaliana genes are known. Here, we use extensive sequencing of cDNA libraries to identify 9 paternally expressed and 34 maternally expressed imprinted genes in A. thaliana endosperm that are regulated by the DNA-demethylating glycosylase DEMETER, the DNA methyltransferase MET1, and/or the core Polycomb group protein FIE. These genes encode transcription factors, proteins involved in hormone signaling, components of the ubiquitin protein degradation pathway, regulators of histone and DNA methylation, and small RNA pathway proteins. We also identify maternally expressed genes that may be regulated by unknown mechanisms or deposited from maternal tissues. We did not detect any imprinted genes in the embryo. Our results show that imprinted gene expression is an extensive mechanistically complex phenomenon that likely affects multiple aspects of seed development. AU - Hsieh, Tzung-Fu AU - Shin, Juhyun AU - Uzawa, Rie AU - Silva, Pedro AU - Cohen, Stephanie AU - Bauer, Matthew J. AU - Hashimoto, Meryl AU - Kirkbride, Ryan C. AU - Harada, John J. AU - Zilberman, Daniel AU - Fischer, Robert L. ID - 9483 IS - 5 JF - Proceedings of the National Academy of Sciences SN - 0027-8424 TI - Regulation of imprinted gene expression in Arabidopsis endosperm VL - 108 ER - TY - JOUR AB - Motivated by recent experiments on the material Ba3NiSb 2O9, we consider a spin-one quantum antiferromagnet on a triangular lattice with the Heisenberg bilinear and biquadratic exchange interactions and a single-ion anisotropy. Using a fermionic "triplon" representation for spins, we study the phase diagram within mean-field theory. In addition to a fully gapped spin-liquid ground state, we find a state where one gapless triplon mode with a Fermi surface coexists with d+id topological pairing of the other triplons. Despite the existence of a Fermi surface, this ground state has fully gapped bulk spin excitations. Such a state has linear in-temperature specific heat and constant in-plane spin susceptibility, with an unusually high Wilson ratio. AU - Maksym Serbyn AU - Senthil, Todadri S AU - Lee, Patrick ID - 967 IS - 18 JF - Physical Review B - Condensed Matter and Materials Physics TI - Exotic S=1 spin-liquid state with fermionic excitations on the triangular lattice VL - 84 ER - TY - JOUR AB - We investigate the isotope effect on the London penetration depth of a superconductor which measures n S/m*, the ratio of superfluid density to effective mass. We use a simplified model of electrons weakly coupled to a single phonon frequency ω E, but assume that the energy gap Δ does not have any isotope effect. Nevertheless, we find an isotope effect for n S/m* which is significant if Δ is sufficiently large that it becomes comparable to ω E, a regime of interest to high-T c cuprate superconductors and possibly other families of unconventional superconductors with relatively high T c. Our model is too simple to describe the cuprates and it gives the wrong sign of the isotope effect when compared with experiment, but it is a proof of principle that the isotope effect exists for n S/m* in materials where the pairing gap and T c are not of phonon origin and have no isotope effect. AU - Maksym Serbyn AU - Lee, Patrick ID - 969 IS - 2 JF - Physical Review B - Condensed Matter and Materials Physics TI - Isotope effect on the superfluid density in conventional and high-temperature superconductors VL - 83 ER - TY - JOUR AB - Despite the importance of protein fibrils in the context of conformational diseases, information on their structure is still sparse. Hydrogen/deuterium exchange measurements of backbone amide protons allow the identification hydrogen-bonding patterns and reveal pertinent information on the amyloid β-sheet architecture. However, they provide only little information on the identity of residues exposed to solvent or buried inside the fibril core. NMR spectroscopy is a potent method for identifying solvent-accessible residues in proteins via observation of polarization transfer between chemically exchanging side-chain protons and water protons. We show here that the combined use of highly deuterated samples and fast magic-angle spinning greatly attenuates unwanted spin diffusion and allows identification of polarization exchange with the solvent in a site-specific manner. We apply this measurement protocol to HET-s(218–289) prion fibrils under different conditions (including physiological pH, where protofibrils assemble together into thicker fibrils) and demonstrate that each protofibril of HET-s(218–289), is surrounded by water, thus excluding the existence of extended dry interfibril contacts. We also show that exchangeable side-chain protons inside the hydrophobic core of HET-s(218–289) do not exchange over time intervals of weeks to months. The experiments proposed in this study can provide insight into the detailed structural features of amyloid fibrils in general. AU - Van Melckebeke, Hélène AU - Schanda, Paul AU - Gath, Julia AU - Wasmer, Christian AU - Verel, René AU - Lange, Adam AU - Meier, Beat H. AU - Böckmann, Anja ID - 8471 IS - 3 JF - Journal of Molecular Biology SN - 0022-2836 TI - Probing water accessibility in HET-s(218–289) amyloid fibrils by solid-state NMR VL - 405 ER - TY - JOUR AB - The classical principle of least action says that orbits of mechanical systems extremize action; an important subclass are those orbits that minimize action. In this paper we utilize this principle along with Aubry-Mather theory to construct (Birkhoff) regions of instability for a certain three-body problem, given by a Hamiltonian system of 2 degrees of freedom. We believe that these methods can be applied to construct instability regions for a variety of Hamiltonian systems with 2 degrees of freedom. The Hamiltonian model we consider describes dynamics of a Sun-Jupiter-comet system, and under some simplifying assumptions, we show the existence of instabilities for the orbit of the comet. In particular, we show that a comet which starts close to an orbit in the shape of an ellipse of eccentricity e=0.66 can increase in eccentricity up to e=0.96. In the sequels to this paper, we extend the result to beyond e=1 and show the existence of ejection orbits. Such orbits are initially well within the range of our solar system. This might give an indication of why most objects rotating around the Sun in our solar system have relatively low eccentricity. AU - Galante, Joseph AU - Kaloshin, Vadim ID - 8505 IS - 2 JF - Duke Mathematical Journal KW - General Mathematics SN - 0012-7094 TI - Destruction of invariant curves in the restricted circular planar three-body problem by using comparison of action VL - 159 ER - TY - CHAP AU - Fyodor Kondrashov ID - 881 T2 - Evolution after Gene Duplication TI - Gene Dosage and Duplication ER - TY - JOUR AB - Collective cell migration in tissues occurs throughout embryonic development, during wound healing, and in cancerous tumor invasion, yet most detailed knowledge of cell migration comes from single-cell studies. As single cells migrate, the shape of the cell body fluctuates dramatically through cyclic processes of extension, adhesion, and retraction, accompanied by erratic changes in migration direction. Within confluent cell layers, such subcellular motions must be coupled between neighbors, yet the influence of these subcellular motions on collective migration is not known. Here we study motion within a confluent epithelial cell sheet, simultaneously measuring collective migration and subcellular motions, covering a broad range of length scales, time scales, and cell densities. At large length scales and time scales collective migration slows as cell density rises, yet the fastest cells move in large, multicell groups whose scale grows with increasing cell density. This behavior has an intriguing analogy to dynamic heterogeneities found in particulate systems as they become more crowded and approach a glass transition. In addition we find a diminishing self-diffusivity of short-wavelength motions within the cell layer, and growing peaks in the vibrational density of states associated with cooperative cell-shape fluctuations. Both of these observations are also intriguingly reminiscent of a glass transition. Thus, these results provide a broad and suggestive analogy between cell motion within a confluent layer and the dynamics of supercooled colloidal and molecular fluids approaching a glass transition. AU - Angelini, Thomas AU - Hannezo, Edouard B AU - Trepatc, Xavier AU - Marquez, Manuel AU - Fredberg, Jeffrey AU - Weitz, David ID - 919 IS - 12 JF - Proceedings of the National Academy of Sciences of the United States of America TI - Glass-like dynamics of collective cell migration VL - 108 ER - TY - JOUR AB - We study theoretically the shapes of a dividing epithelial monolayer of cells lying on top of an elastic stroma. The negative tension created by cell division provokes a buckling instability at a finite wave vector leading to the formation of periodic arrays of villi and crypts. The instability is similar to the buckling of a metallic plate under compression. We use the results to rationalize the various structures of the intestinal lining observed in vivo. Taking into account the coupling between cell division and local curvature, we obtain different patterns of villi and crypts, which could explain the different morphologies of the small intestine and the colon. AU - Hannezo, Edouard B AU - Prost, Jacques AU - Joanny, Jean ID - 918 IS - 7 JF - Physical Review Letters TI - Instabilities of monolayered epithelia Shape and structure of villi and crypts VL - 107 ER - TY - GEN AB - Little is known about chromatin remodeling events immediately after fertilization. A recent report by Autran et al. (2011) in Cell now shows that chromatin regulatory pathways that silence transposable elements are responsible for global delayed activation of gene expression in the early Arabidopsis embryo. AU - Zilberman, Daniel ID - 9522 IS - 6 SN - 1534-5807 T2 - Developmental Cell TI - Balancing parental contributions in plant embryonic gene activation VL - 20 ER - TY - CONF AB - In this paper, we establish a correspondence between the incremental algorithm for computing AT-models [8,9] and the one for computing persistent homology [6,14,15]. We also present a decremental algorithm for computing AT-models that allows to extend the persistence computation to a wider setting. Finally, we show how to combine incremental and decremental techniques for persistent homology computation. AU - Gonzalez-Diaz, Rocio AU - Ion, Adrian AU - Jimenez, Maria Jose AU - Poyatos, Regina ID - 9648 SN - 03029743 T2 - Computer Analysis of Images and Patterns TI - Incremental-decremental algorithm for computing AT-models and persistent homology VL - 6854 ER -