M. Compier scite author profile

AbstractPost embryonic development and growth of flowering plants are for a large part determined by the activity and maturation state of stem cell niches formed in the axils of leaves, the so-called axillary meristems (AMs)1,2. Here we identify a new role for the Arabidopsis AT-HOOK MOTIF CONTAINING NUCLEAR LOCALIZED 15 (AHL15) gene as a suppressor of AM maturation. Loss of AHL15 function accelerates AM maturation, whereas ectopic expression of AHL15 suppresses AM maturation and promotes longevity in Arabidopsis and tobacco. Together our results indicate that AHL15 expression acts as a key molecular switch, directly downstream of flowering genes (SOC1, FUL) and upstream of GA biosynthesis, in extending the plant’s lifespan by suppressing AM maturation.

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The mammalian K_IR2.x inward rectifier ion channel family: expression pattern and pathophysiology

Boer¹,

Houtman²,

Compier³

et al. 2010

Acta Physiologica

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Inward rectifier currents based on K(IR)2.x subunits are regarded as essential components for establishing a stable and negative resting membrane potential in many excitable cell types. Pharmacological inhibition, null mutation in mice and dominant positive and negative mutations in patients reveal some of the important functions of these channels in their native tissues. Here we review the complex mammalian expression pattern of K(IR)2.x subunits and relate these to the outcomes of functional inhibition of the resultant channels. Correlations between expression and function in muscle and bone tissue are observed, while we recognize a discrepancy between neuronal expression and function.

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A suppressor of axillary meristem maturation promotes longevity in flowering plants

et al. 2020

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Post embryonic development and growth of flowering plants are for a large part determined by the activity and maturation state of stem cell niches formed in the axils of leaves, the so-called axillary meristems (AMs) 1,2 . Here we identify a new role for the Arabidopsis AT-HOOK MOTIF CONTAINING NUCLEAR LOCALIZED 15 (AHL15) gene as a suppressor of AM maturation. Loss of AHL15 function accelerates AM maturation, whereas ectopic expression of AHL15 suppresses AM maturation and promotes longevity in Arabidopsis and tobacco. Together our results indicate that AHL15 expression acts as a key molecular switch, directly downstream of flowering genes (SOC1, FUL) and upstream of GA biosynthesis, in extending the plant's lifespan by suppressing AM maturation..

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M. Compier

A suppressor of axillary meristem maturation promotes longevity in flowering plants

The mammalian K_IR2.x inward rectifier ion channel family: expression pattern and pathophysiology

A suppressor of axillary meristem maturation promotes longevity in flowering plants

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M. Compier

A suppressor of axillary meristem maturation promotes longevity in flowering plants

The mammalian KIR2.x inward rectifier ion channel family: expression pattern and pathophysiology

A suppressor of axillary meristem maturation promotes longevity in flowering plants

Contact Info

Product

Resources

About

The mammalian K_IR2.x inward rectifier ion channel family: expression pattern and pathophysiology