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hemodialysis/sīkplikstiņi
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Omeprazole Enhances Mechanical Stress-Induced Root Growth Reduction in Arabidopsis thaliana.
Rakstu tulkošanu var veikt tikai reģistrēti lietotāji
Ielogoties Reģistrēties
Mechanical sensing is one of the most fundamental processes for sessile plants to survive and grow. The response is known to involve calcium elevation in the cell. Arabidopsis seedlings grown horizontally on agar plates covered with a dialysis membrane show a 2-fold reduction in root growth compared
[Induced expression of Arabidopsis thaliana WUSCHEL in Escherichia coli, affinity protein purification and polyclonal antibody preparation].
Rakstu tulkošanu var veikt tikai reģistrēti lietotāji
Ielogoties Reģistrēties
We constructed a His-tagged prokaryotic expression vector of WUSCHEL gene of Arabidopsis thaliana, pET-31b(+)-WUS-His(6). The induction condition of the fusion protein expression in Escherichia coli was optimized. After purified by affinity chromatography, the recombinant WUS protein was resolved by
How many salicylic acid receptors does a plant cell need?
Rakstu tulkošanu var veikt tikai reģistrēti lietotāji
Ielogoties Reģistrēties
The small-molecule hormone salicylic acid (SA) is a plant immune signal for which the receptors have only recently been identified. Two recent studies reported that the transcriptional coactivator nonexpresser of pathogenesis-related genes 1 (NPR1) and its paralogues NPR3 and NPR4 are bona fide SA
Arabidopsis GLP4 is localized to the Golgi and binds auxin in vitro.
Rakstu tulkošanu var veikt tikai reģistrēti lietotāji
Ielogoties Reģistrēties
Hormones are critical for cell differentiation, elongation, and division. The plant hormone auxin plays vital roles in plant growth and development and is essential for various physiologic processes. Previous studies showed that germin-like proteins (GLPs) are involved in multiple physiologic and
Ethylene signaling plays a pivotal role in mechanical-stress-induced root-growth cessation in Arabidopsis thaliana.
Rakstu tulkošanu var veikt tikai reģistrēti lietotāji
Ielogoties Reģistrēties
Plant roots show growth cessation as a primary response to mechanical stress. To clarify the molecular basis of this response, we have previously established an assay system to monitor the root growth response of Arabidopsis seedlings to mechanical stimuli using dialysis membrane-covered agar media.
Comparative biochemical characterization of nitrile-forming proteins from plants and insects that alter myrosinase-catalysed hydrolysis of glucosinolates.
Rakstu tulkošanu var veikt tikai reģistrēti lietotāji
Ielogoties Reģistrēties
The defensive function of the glucosinolate-myrosinase system in plants of the order Capparales results from the formation of isothiocyanates when glucosinolates are hydrolysed by myrosinases upon tissue damage. In some glucosinolate-containing plant species, as well as in the insect herbivore
Genetic dissection of hormonal responses in the roots of Arabidopsis grown under continuous mechanical impedance.
Rakstu tulkošanu var veikt tikai reģistrēti lietotāji
Ielogoties Reģistrēties
We investigated the role of ethylene and auxin in regulating the growth and morphology of roots during mechanical impedance by developing a new growing system and using the model plant Arabidopsis (Arabidopsis thaliana). The Arabidopsis seedlings grown horizontally on a dialysis membrane-covered
Growth of Arabidopsis thaliana seedlings under water deficit studied by control of water potential in nutrient-agar media.
Rakstu tulkošanu var veikt tikai reģistrēti lietotāji
Ielogoties Reģistrēties
We have characterized the growth responses of Arabidopsis thaliana seedlings to water deficit. To manipulate the water potential, we developed a method whereby the nutrient-agar medium could be supplemented with polyethylene glycol (PEG 8000); PEG was introduced into gelled media by diffusion, which
Phosphorylation and calcium binding properties of an Arabidopsis GF14 brain protein homolog.
Rakstu tulkošanu var veikt tikai reģistrēti lietotāji
Ielogoties Reģistrēties
Arabidopsis GF14 omega was originally described because of its apparent association with a DNA-protein complex; it is a member of the 14-3-3 kinase regulatory protein family that is conserved throughout eukaryotes. Here, we demonstrated that recombinant GF14 omega is expressed in Escherichia coli as
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