Senescence is a developmental mechanism that contributes to embryonic growth and patterning.
about
Telomeres in aging and disease: lessons from zebrafishOld cells, new tricks: chromatin structure in senescenceCellular senescence in aging and age-related disease: from mechanisms to therapyChanges in Regenerative Capacity through LifespanOf flies, mice, and men: evolutionarily conserved tissue damage responses and agingDisruptive chemicals, senescence and immortalityCell-based screen for altered nuclear phenotypes reveals senescence progression in polyploid cells after Aurora kinase B inhibition.Aberrant autolysosomal regulation is linked to the induction of embryonic senescence: differential roles of Beclin 1 and p53 in vertebrate Spns1 deficiencyReorganization of chromosome architecture in replicative cellular senescenceNaturally occurring p16(Ink4a)-positive cells shorten healthy lifespanSmall molecule compounds that induce cellular senescenceRedox control of senescence and age-related diseaseFunctionally Diverse NK-Like T Cells Are Effectors and Predictors of Successful AgingSystemic DNA damage responses in aging and diseasesAging and adipose tissue: potential interventions for diabetes and regenerative medicineSenescence from G2 arrest, revisitedThe Impacts of Cellular Senescence in Elderly Pneumonia and in Age-Related Lung Diseases That Increase the Risk of Respiratory Infections.Senescence-associated β-galactosidase activity marks the visceral endoderm of mouse embryos but is not indicative of senescence.Failure of cell cleavage induces senescence in tetraploid primary cells.Senescent cells communicate via intercellular protein transfer.NOTCH1 mediates a switch between two distinct secretomes during senescence.Comparative analysis of gene expression data reveals novel targets of senescence-associated microRNAs.Oncogenic senescence: a multi-functional perspective.Exosomes maintain cellular homeostasis by excreting harmful DNA from cells.UHRF1 is required for basal stem cell proliferation in response to airway injury.Senescence gives insights into the morphogenetic evolution of anamniotes.Cellular senescence and protein degradation: breaking down cancerA novel ATM/TP53/p21-mediated checkpoint only activated by chronic γ-irradiation.The role of senescent cells in ageing.iPSCs as a major opportunity to understand and cure age-related diseases.Directed elimination of senescent cells by inhibition of BCL-W and BCL-XLSupraphysiological androgen levels induce cellular senescence in human prostate cancer cells through the Src-Akt pathway.HLA-G-mediated NK cell senescence promotes vascular remodeling: implications for reproduction.Clinical strategies and animal models for developing senolytic agents.An essential role for senescent cells in optimal wound healing through secretion of PDGF-AASenescence and apoptosis: dueling or complementary cell fates?Senotherapy: growing old and staying young?Are there roles for brain cell senescence in aging and neurodegenerative disorders?Caveolae control the anti-inflammatory phenotype of senescent endothelial cells.Cellular senescence and aging: the role of B-MYB
P2860
Q26740023-44267AEC-3DF3-4AA1-A0D1-C8281CDD4629Q26750501-62EB0245-E8FA-40B5-B08E-1FCF83F0E85EQ26773500-383AACC6-95E7-429B-A274-5383190D5360Q26778013-61521484-3F55-42A0-A23D-CFA0B31BD1B0Q27025985-3F2B56F8-6333-49D2-8F77-5423C7A12964Q27026235-440989E2-3400-44D2-BC76-7C7A2CAECA9DQ27306356-844DEC1E-8F01-425F-9723-CFCD7209D99FQ27315143-C58AEA5E-3C6E-4906-8CCB-3A1236C8CD93Q27335944-2F84D521-911C-4E99-9BE9-A7FE0A2B5B03Q28005547-87B3F0CC-4B12-484C-900C-42A67EF17B5AQ28068732-9E8B62A3-F285-43A7-B511-0BAA49AA67D0Q28074230-A8CB3A76-D8FC-4AFA-AD4E-E2B6E2B328BEQ28077020-9F5AE688-9972-4846-ABA7-4136C932730CQ28077481-93240AF2-B0F2-48C7-BBFB-30865770F0BEQ28079178-A48DF622-1186-4C20-AAF3-56241A184231Q28088672-21B4C8E1-EF38-4340-BD03-0639D96D29D9Q30235520-C76772A2-CA71-4C8B-9478-29C26DDD6DB2Q30577529-B9BA45EE-CC9A-42F2-A54F-E5EAFE764A67Q30592232-D8053257-AB32-4783-83FB-1CA4AA036C05Q30641176-63AE7118-3252-482E-870A-E044FCA06F09Q30806890-796E786F-5F49-4DF8-B1E1-C05B60D08B26Q30829491-2E735C5A-ADB3-4A18-BB14-3518FB89FE05Q33689160-972DA454-5C66-4010-B491-958351DDC56DQ33716401-D1095CC5-533A-404D-B039-58128C47E60DQ33791254-813624B3-2C18-4284-86A2-078CA0DC721CQ33830606-C893358B-B217-48F0-B501-690C06AFF8BAQ33953067-D9AA1787-B8AE-4175-847C-95CDDF2DEEF2Q34005051-9E0ABF21-A969-460F-B940-3B53A562743FQ34041036-AB703DF5-BEB3-4C8C-8074-445B32FDBC59Q34044029-B84F5321-D47D-452F-B428-A97CD8AB817EQ34046604-A376AA7B-979D-4D0D-BFF7-3E1A1311A288Q34227242-B32C9BBE-FDC4-461E-A487-3A32703A28CFQ34339809-918C2E85-1345-4B26-B4EF-63720138CCF4Q34450706-E01F8095-EAEC-4229-A242-4CD94CA0E1F6Q34453396-5A06DAD3-7B08-4D3C-BDD6-029E1FD91738Q34619554-5C303A5C-D4CE-48CF-9C89-736DEEE92B1EQ34681446-981AF4F6-774A-439E-AC4D-5BF26479A7DFQ34688159-378C5FE6-0271-4A9E-A35D-4D32FF571A1FQ35080556-55A4BBAC-5582-4A38-A5D2-AD001951FDCBQ35093078-EB2B2713-3169-4508-BF5C-16EF978EAE74
P2860
Senescence is a developmental mechanism that contributes to embryonic growth and patterning.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
2013年學術文章
@zh
2013年學術文章
@zh-hant
name
Senescence is a developmental ...... bryonic growth and patterning.
@en
Senescence is a developmental ...... bryonic growth and patterning.
@nl
type
label
Senescence is a developmental ...... bryonic growth and patterning.
@en
Senescence is a developmental ...... bryonic growth and patterning.
@nl
prefLabel
Senescence is a developmental ...... bryonic growth and patterning.
@en
Senescence is a developmental ...... bryonic growth and patterning.
@nl
P2093
P50
P1433
P1476
Senescence is a developmental ...... bryonic growth and patterning.
@en
P2093
M Carmen Ortells
Matteo Pecoraro
Mekayla Storer
Noam Pilpel
Reut Yosef
Valeria Di Giacomo
Valery Krizhanovsky
P304
P356
10.1016/J.CELL.2013.10.041
P407
P577
2013-11-14T00:00:00Z