693 research outputs found
The gene annotation file of the <i>Larix kaempferi</i> genome (v1.0)
This is a gene annotation file of the Larix kaempferi genome (v1.0). If using this data, please cite the following article: Sun,C., Xie,Y.H., Li,Z., Liu,Y.J., Sun,X.M., Li,J.J., Quan,W.P., Zeng,Q.Y., Van de Peer,Y., and Zhang,S.G. (2022). The Larix kaempferi genome reveals new insights into wood properties. J. Integr. Plant Biol. 64: 1364–1373.</p
FIGURE 1. Acronema crassifolium Huan C.Wang, X.M. Zhou & Y.H. Wang. A. Habit. B. Infrutescence. C. Flower. D. Fruit. A and C in Acronema crassifolium sp. nov. (Apiaceae), a distinct new species from Yunnan, southwest China
FIGURE 1. Acronema crassifolium Huan C.Wang, X.M. Zhou & Y.H. Wang. A. Habit. B. Infrutescence. C. Flower. D. Fruit. A and C drawn from Wang et al. 1344 (HYU), B and D drawn from Zhu & Wu 2802 (HYU).Published as part of <i>WANG, HUAN-CHONG, ZHOU, XIN-MAO, SUN, HANG & WANG, YUE-HUA, 2013, Acronema crassifolium sp. nov. (Apiaceae), a distinct new species from Yunnan, southwest China, pp. 39-44 in Phytotaxa 87 (3)</i> on page 40, DOI: 10.11646/phytotaxa.87.3.1, <a href="http://zenodo.org/record/10087634">http://zenodo.org/record/10087634</a>
Hierarchical Fibers with a Negative Poisson’s Ratio for Tougher Composites
In this paper, a new kind of hierarchical tube with a negative Poisson’s ratio (NPR) is proposed. The first level tube is constructed by rolling up an auxetic hexagonal honeycomb. Then, the second level tube is produced by substituting the arm of the auxetic sheet with the first level tube and rolling it up. The Nth ( ) level tube can be built recursively. Based on the Euler beam theory, the equivalent elastic parameters of the NPR hierarchical tubes under small deformations are derived. Under longitudinal axial tension, instead of shrinking, all levels of the NPR hierarchical tubes expand in the transverse direction. Using these kinds of auxetic tubes as reinforced fibers in composite materials would result in a higher resistance to fiber pullout. Thus, this paper provides a new strategy for the design of fiber reinforced hierarchical bio-inspired composites with a superior pull-out mechanism, strength and toughness. An application with super carbon nanotubes concludes the paper
FIGURE 5 in Acronema crassifolium sp. nov. (Apiaceae), a distinct new species from Yunnan, southwest China
FIGURE 5. Geographical distribution of Acronema crassifolium Huan C.Wang, X.M. Zhou & Y.H. Wang (solid stars).Published as part of <i>WANG, HUAN-CHONG, ZHOU, XIN-MAO, SUN, HANG & WANG, YUE-HUA, 2013, Acronema crassifolium sp. nov. (Apiaceae), a distinct new species from Yunnan, southwest China, pp. 39-44 in Phytotaxa 87 (3)</i> on page 43, DOI: 10.11646/phytotaxa.87.3.1, <a href="http://zenodo.org/record/10087634">http://zenodo.org/record/10087634</a>
FIGURE 2 in Acronema crassifolium sp. nov. (Apiaceae), a distinct new species from Yunnan, southwest China
FIGURE 2. Type specimens (Zhu & Wu 2802) of Acronema crassifolium Huan C.Wang, X.M. Zhou & Y.H. Wang. A. Holotype. B. Isotype.Published as part of <i>WANG, HUAN-CHONG, ZHOU, XIN-MAO, SUN, HANG & WANG, YUE-HUA, 2013, Acronema crassifolium sp. nov. (Apiaceae), a distinct new species from Yunnan, southwest China, pp. 39-44 in Phytotaxa 87 (3)</i> on page 41, DOI: 10.11646/phytotaxa.87.3.1, <a href="http://zenodo.org/record/10087634">http://zenodo.org/record/10087634</a>
FIGURE 4 in Acronema crassifolium sp. nov. (Apiaceae), a distinct new species from Yunnan, southwest China
FIGURE 4. Pollen morphology of Acronema crassifolium Huan C.Wang, X.M. Zhou & Y.H. Wang. Voucher specimen: Wang et al. 1344 (HYU).Published as part of <i>WANG, HUAN-CHONG, ZHOU, XIN-MAO, SUN, HANG & WANG, YUE-HUA, 2013, Acronema crassifolium sp. nov. (Apiaceae), a distinct new species from Yunnan, southwest China, pp. 39-44 in Phytotaxa 87 (3)</i> on page 43, DOI: 10.11646/phytotaxa.87.3.1, <a href="http://zenodo.org/record/10087634">http://zenodo.org/record/10087634</a>
Recent advances on the theory and applications of networked control systems
EditorialYun-Bo Zhao, Xi-Ming Sun, Jinhui Zhang, and Peng Sh
Lipase-catalyzed Enantioselective Esterification in Supercritical CO2 Design and Performance of Solubility Equipment and a SCF Reactor
Applied Science
Chromosome-autonomous feedback down-regulates meiotic DNA break competence upon synaptonemal complex formation
We are grateful to Michael Lichten and Rodney Rothstein for providing strains and plasmids, Miki Shinohara and Keun Kim for discussions and sharing unpublished data, Dean Dawson and Amy MacQueen for sharing unpublished data, Agnes Viale (Memorial Sloan Kettering Cancer Center [MSKCC] Integrated Genomics Core Laboratory) for sequencing, Nicholas Socci (MSKCC Bioinformatics Core Facility) for mapping sequence reads, Stewart Shuman for gifts of T4 RNA ligase, and members of the S.K. laboratory, especially Shintaro Yamada and Devanshi Jain, for discussion and comments on the manuscript. MSKCC core facilities are supported by Cancer Center Support Grant P30 CA008748. This work was supported by National Institute of General Medical Sciences grant R35 GM118092 to S.K. Author contributions: X.M. performed experiments. X.M. analyzed Spo11-oligo map data with contributions from H.M. N.M. generated the Spo11-oligo map of the trisomy XV strain. X.M., H.M., and S.K. designed the study and wrote the paper. H.M. and S.K. supervised the research. S.K. secured fundingPeer reviewe
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