Seth J Davis scite author profile

Small ubiquitin-like modifier (SUMO) is a member of the superfamily of ubiquitin-like polypeptides that become covalently attached to various intracellular target proteins as a way to alter their function, location, and/or half-life. Here we show that the SUMO conjugation system operates in plants through a characterization of the Arabidopsis SUMO pathway. An eight-gene family encoding the SUMO tag was discovered as were genes encoding the various enzymes required for SUMO processing, ligation, and release. A diverse array of conjugates could be detected, some of which appear to be SUMO isoform-specific. The levels of SUMO1 and -2 conjugates but not SUMO3 conjugates increased substantially following exposure of seedlings to stress conditions, including heat shock, H 2 O 2 , ethanol, and the amino acid analog canavanine. The heat-induced accumulation could be detected within 2 min from the start of a temperature upshift, suggesting that SUMO1/2 conjugation is one of the early plant responses to heat stress. Overexpression of SUMO2 enhanced both the steady state levels of SUMO2 conjugates under normal growth conditions and the subsequent heat shock-induced accumulation. This accumulation was dampened in an Arabidopsis line engineered for increased thermotolerance by overexpressing the cytosolic isoform of the HSP70 chaperonin. Taken together, the SUMO conjugation system appears to be a complex and functionally heterogeneous pathway for protein modification in plants with initial data indicating that one important function may be in stress protection and/or repair.Post-translational modifications of proteins play a critical role in most cellular processes through their unique ability to alter rapidly and reversibly the functions of preexisting proteins, multiprotein complexes, and intracellular structures. Although originally thought to be restricted to small molecules like phosphate and sugars, emerging data now show that several distinct types of polypeptide tags are important modifiers as well (1-4). These polypeptides become covalently attached to various intracellular targets via mechanistically similar ATPdependent reaction cascades involving activation (E1s) 1 and conjugation (E2s) enzymes. Sometimes an additional enzyme (E3s) also participates in target recognition and ligation. Ultimately, a protein conjugate is formed bearing the tag linked via an isopeptide bond between its C-terminal glycine and free lysyl ⑀-amino groups within the target. Depending on the tag and/or the target protein, the function, location, and/or half-life of the target can be affected. A family of tag-specific proteases also participates in each of the pathways. These proteases help generate the active form of the tag by removing extra residues that cap the C-terminal glycine of the polypeptide and/or are used to disassemble conjugates by cleaving the isopeptide bond between the tag and the target, thus releasing each in an unmodified form.The most pervasive and best understood tag is the 76-amino acid polypeptide ubiquitin (Ub) (5...

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The ELF4 gene controls circadian rhythms and flowering time in Arabidopsis thaliana

Doyle

Davis

Bastow

et al. 2002

Nature

429

491

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Many plants use day length as an environmental cue to ensure proper timing of the switch from vegetative to reproductive growth. Day-length sensing involves an interaction between the relative length of day and night, and endogenous rhythms that are controlled by the plant circadian clock. Thus, plants with defects in circadian regulation cannot properly regulate the timing of the floral transition. Here we describe the gene EARLY FLOWERING 4 (ELF4), which is involved in photoperiod perception and circadian regulation. ELF4 promotes clock accuracy and is required for sustained rhythms in the absence of daily light/dark cycles. elf4 mutants show attenuated expression of CIRCADIAN CLOCK ASSOCIATED 1 (CCA1), a gene that is thought to function as a central oscillator component. In addition, elf4 plants transiently show output rhythms with highly variable period lengths before becoming arrhythmic. Mutations in elf4 result in early flowering in non-inductive photoperiods, which is probably caused by elevated amounts of CONSTANS (CO), a gene that promotes floral induction.

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Bacteriophytochromes are photochromic histidine kinases using a biliverdin chromophore

Bhoo

Davis

Walker

et al. 2001

Nature

296

400

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Phytochromes comprise a principal family of red/far-red light sensors in plants. Although phytochromes were thought originally to be confined to photosynthetic organisms, we have recently detected phytochrome-like proteins in two heterotrophic eubacteria, Deinococcus radiodurans and Pseudomonas aeruginosa. Here we show that these form part of a widespread family of bacteriophytochromes (BphPs) with homology to two-component sensor histidine kinases. Whereas plant phytochromes use phytochromobilin as the chromophore, BphPs assemble with biliverdin, an immediate breakdown product of haem, to generate photochromic kinases that are modulated by red and far-red light. In some cases, a unique haem oxygenase responsible for the synthesis of biliverdin is part of the BphP operon. Co-expression of this oxygenase with a BphP apoprotein and a haem source is sufficient to assemble holo-BphP in vivo. Both their presence in many diverse bacteria and their simplified assembly with biliverdin suggest that BphPs are the progenitors of phytochrome-type photoreceptors.

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Seth J Davis

The Small Ubiquitin-like Modifier (SUMO) Protein Modification System in Arabidopsis

The ELF4 gene controls circadian rhythms and flowering time in Arabidopsis thaliana

Bacteriophytochromes are photochromic histidine kinases using a biliverdin chromophore

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