全部文献期刊学位论文会议报纸专利标准年鉴图书|学者科研项目
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作者:... Takayoshi Otsuka , Shambhavi Singh , David M. Gardiner
来源:[J].Current Stem Cell Reports, 2017, Vol.3 (3), pp.156-163Springer
摘要:Recent advances in genomics and gene editing have expanded the range of model organisms to include those with interesting biological capabilities such as regeneration. Among these are the classic models of regeneration biology, the salamander. Although stimulating endogenous rege...
作者:... Charless Fowlkes , David M. Gardiner , S. Randal Voss
来源:[J].BMC Developmental Biology(IF 2.728), 2015, Vol.15 (1)Springer
摘要:Abstract(#br) Background(#br)The endogenous ability to dedifferentiate, re-pattern, and re-differentiate adult cells to repair or replace damaged or missing structures is exclusive to only a few tetrapod species. The Mexican axolotl is one example of these species, having the cap...
作者:... Julian Sosnik , Anne Q. Phan , David M. Gardiner
来源:[J].Developmental Biology(IF 3.868), 2016, Vol.416 (1), pp.26-33Elsevier
摘要:Abstract(#br)The Mexican Axolotl is one of the few tetrapod species that is capable of regenerating complete skeletal elements in injured adult limbs. Whether the skeleton (bone and cartilage) plays a role in the patterning and contribution to the skeletal regenerate is currently...
作者:... S. Randal Voss , David M. Gardiner , Tony Hunter
来源:[J].Developmental Biology(IF 3.868), 2012, Vol.370 (1), pp.42-51Elsevier
摘要:Abstract(#br)The capacity for tissue and organ regeneration in humans is dwarfed by comparison to that of salamanders. Emerging evidence suggests that mechanisms learned from the early phase of salamander limb regeneration—wound healing, cellular dedifferentiation and blaste...
作者:Akira Satoh , Susan V. Bryant , David M. Gardiner
来源:[J].Developmental Biology(IF 3.868), 2012, Vol.366 (2), pp.374-381Elsevier
摘要:Abstract(#br)The ability of adult vertebrates to repair tissue damage is widespread and impressive; however, the ability to regenerate structurally complex organs such as the limb is limited largely to the salamanders. The fact that most of the tissues of the limb can regenerate ...
作者:David M. Gardiner , Susan V. Bryant
来源:[J].Developmental Biology(IF 3.868), 2007, Vol.312 (1), pp.231-244Elsevier
摘要:Abstract(#br)Adult urodeles (salamanders) are unique in their ability to regenerate complex organs perfectly. The recently developed Accessory Limb Model (ALM) in the axolotl provides an opportunity to identify and characterize the essential signaling events that control the earl...
作者:... Gillian M.C. Cummings , Susan V. Bryant , David M. Gardiner
来源:[J].Developmental Biology(IF 3.868), 2010, Vol.337 (2), pp.444-457Elsevier
摘要:Abstract(#br)The ability of animals to repair tissue damage is widespread and impressive. Among tissues, the repair and remodeling of bone occurs during growth and in response to injury; however, loss of bone above a threshold amount is not regenerated, resulting in a “criti...
作者:... Baozhong Liu , Cynthia Shu , David M. Gardiner
来源:[J].Comparative Biochemistry and Physiology - Part D: Genomics and Proteomics(IF 2.875), 2011, Vol.6 (2), pp.195-205Elsevier
摘要:Abstract(#br)Sea cucumbers are fascinating invertebrate organisms because of their ability to rapidly regenerate many organs and appendages. In this study 454 cDNA sequencing method was used to characterize transcriptome in Apostichopus japonicus in order to investigate gene...

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