Dataset Information


Arabidopsis Col and nore1-1 at DAE 12, 16, 20, and 24

ABSTRACT: To understand the role of NORE1, a negative regulator of senescence during senescence, we have employed transcriptional profiling of Col and nore1-1 along aging (DAE 12,16,20 and 24). Aligent’s Whole Arabidopsis Gene Expression Microarray (G2519F-021169, V4, 4x44K) was used. Overall design: Age (4 time points; DAE12, 16, 20, and 24)-associated transcription profile in Col vs nore1-1. 2 independent biological samples

INSTRUMENT(S): Agilent-021169 Arabidopsis 4 Oligo Microarray (V4) (Feature Number version)

SUBMITTER: Jeongsik Kim  

PROVIDER: GSE72995 | GEO | 2016-09-14



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NORE1/SAUL1 integrates temperature-dependent defense programs involving SGT1b and PAD4 pathways and leaf senescence in Arabidopsis.

Lee Il Hwan IH   Lee In Chul IC   Kim Jeongsik J   Kim Jin Hee JH   Chung Eui-Hwan EH   Kim Hyo Jung HJ   Park Su Jin SJ   Kim Yong Min YM   Kang Sin Kyu SK   Nam Hong Gil HG   Woo Hye Ryun HR   Lim Pyung Ok PO  

Physiologia plantarum 20160601 2

Leaf senescence is not only primarily governed by developmental age but also influenced by various internal and external factors. Although some genes that control leaf senescence have been identified, the detailed regulatory mechanisms underlying integration of diverse senescence-associated signals into the senescence programs remain to be elucidated. To dissect the regulatory pathways involved in leaf senescence, we isolated the not oresara1-1 (nore1-1) mutant showing accelerated leaf senescenc  ...[more]

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