Separating parental environment from seed size effects on next generation growth and development in Arabidopsis.
about
High-throughput computer vision introduces the time axis to a quantitative trait map of a plant growth response.Molecular and immunological characterization of ragweed (Ambrosia artemisiifolia L.) pollen after exposure of the plants to elevated ozone over a whole growing season.Ragweed (Ambrosia artemisiifolia) pollen allergenicity: SuperSAGE transcriptomic analysis upon elevated CO2 and drought stress.Reassess the t Test: Interact with All Your Data via ANOVA.Using flatbed scanners to collect high-resolution time-lapsed images of the arabidopsis root gravitropic response.Allelic heterogeneity and trade-off shape natural variation for response to soil micronutrient.Optimizing experimental procedures for quantitative evaluation of crop plant performance in high throughput phenotyping systemsAcorn cotyledons are larger than their seedlings' need: evidence from artificial cutting experiments.Over-expression of Arabidopsis AtCHR23 chromatin remodeling ATPase results in increased variability of growth and gene expression.Natural Genetic Variation for Growth and Development Revealed by High-Throughput Phenotyping in Arabidopsis thaliana.Genome-wide association mapping of growth dynamics detects time-specific and general quantitative trait lociMapping quantitative trait loci affecting Arabidopsis thaliana seed morphology features extracted computationally from images.Cross-Talk Between Sporophyte and Gametophyte Generations Is Promoted by CHD3 Chromatin Remodelers in Arabidopsis thalianaMediation of seed provisioning in the transmission of environmental maternal effects in Maritime pine (Pinus pinaster Aiton)Maternal Effects on Seed and Seedling Phenotypes in Reciprocal F 1 Hybrids of the Common Bean (Phaseolus vulgaris L.).Phenoscope: an automated large-scale phenotyping platform offering high spatial homogeneity.Loss of the ETR1 ethylene receptor reduces the inhibitory effect of far-red light and darkness on seed germination of Arabidopsis thalianaVisualizing the genetic landscape of Arabidopsis seed performance.Environmental maternal effects mediate the resistance of maritime pine to biotic stress.Quantitative Variation in Responses to Root Spatial Constraint within Arabidopsis thaliana.Ethylene Receptors Signal via a Noncanonical Pathway to Regulate Abscisic Acid Responses.Heterosis and inbreeding depression of epigenetic Arabidopsis hybrids.Identification of Regions in the Receiver Domain of the ETHYLENE RESPONSE1 Ethylene Receptor of Arabidopsis Important for Functional Divergence.Unravelling the genetic complexity of sorghum seedling development under low-temperature conditions.Investigating the potential of novel non-woven fabrics for efficient pollination control in plant breeding
P2860
Q28661930-85521999-A057-427E-9C9C-400234D62620Q30620824-87A6A22A-9F5E-4626-8FB1-B0B2F2677ACEQ30833745-71FBE58A-D242-491E-84FB-1B69B6255B26Q30983703-BA1CB311-B1A8-4663-9EDE-30B61EFC2F5BQ33878492-3B2D57F1-1E01-4EFB-9234-EFECBF7BA212Q34341407-DD8F64D0-761E-47C4-B310-52BBB4135DF9Q34986350-09CA8374-1F63-4C6B-B7D0-B53D002450B7Q35024849-2FD67EF2-D7E5-4447-96A3-1A5A952906ABQ35130772-2967C788-B4FE-455D-94C8-23095EA3B591Q35746898-3AD37282-878F-48CB-9AAA-CD39329C0876Q36098554-11002094-3856-4BE9-849D-213ECDA12398Q36512643-5C81F7C0-81AF-4321-B1D6-0CCB3CAAB394Q36976888-188F09BB-5796-4563-962E-8D4B819DFA78Q37103759-D80F6A32-AE70-4186-BB69-36C37FA23539Q37602087-3C357F82-735C-405C-B518-0208874903DCQ39525988-CDD637D8-BBDE-49C6-BB4E-AB3B58BE7E68Q42036998-F1EA4840-DD17-4A02-9CBD-E24B42D90DFDQ42628262-9BCA2689-E34F-4DA8-8901-BBEE021EC943Q43072152-8E1E6B3A-DEF2-4E1E-A63C-54944BADF206Q46688722-95DCFE34-F4FD-496D-8C7C-06121AD659B8Q47381491-25D58373-70C5-430C-A208-2C50BB320CA8Q48143441-2EB251F6-E337-478D-935F-4B388664FE82Q48160231-50E12E4A-8B52-45D0-AC49-95D63831923CQ53090355-CB75DCB0-654E-4B73-B49F-57A67D39E523Q59126486-6BF4C9F9-F584-49B7-A712-565142CE34D7
P2860
Separating parental environment from seed size effects on next generation growth and development in Arabidopsis.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh-hant
name
Separating parental environmen ...... nd development in Arabidopsis.
@en
Separating parental environmen ...... nd development in Arabidopsis.
@nl
type
label
Separating parental environmen ...... nd development in Arabidopsis.
@en
Separating parental environmen ...... nd development in Arabidopsis.
@nl
prefLabel
Separating parental environmen ...... nd development in Arabidopsis.
@en
Separating parental environmen ...... nd development in Arabidopsis.
@nl
P2093
P2860
P1476
Separating parental environmen ...... nd development in Arabidopsis.
@en
P2093
Angela L Elwell
David S Gronwall
Nathan D Miller
Tessa L Durham Brooks
P2860
P304
P356
10.1111/J.1365-3040.2010.02243.X
P577
2010-11-12T00:00:00Z