The effect of salt and temperature on the conformational changes of P1LEA‐22, a repeat unit of plant Late Embryogenesis Abundant proteins
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DOI: 10.1002/psc.3247
Abstract: The effect of choline chloride on the conformational dynamics of the 11‐mer repeat unit P1LEA‐22 of group 3 Late Embryogenesis Abundant (G3LEA) proteins was studied. Circular dichroism data of aqueous solutions of P1LEA‐22 revealed that… read more here.
Keywords: choline chloride; temperature; late embryogenesis; effect ... See more keywords
Late Embryogenesis Abundant (LEA) proteins confer water stress tolerance to mammalian somatic cells.
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DOI: 10.1016/j.cryobiol.2020.01.009
Abstract: Late Embryogenesis Abundant (LEA) proteins are commonly found in plants and other organisms capable of undergoing severe and reversible dehydration, a phenomenon termed "anhydrobiosis". Here, we have produced a tagged version for three different LEA… read more here.
Keywords: abundant lea; tolerance mammalian; late embryogenesis; lea proteins ... See more keywords
Late Embryogenesis Abundant (LEA)5 Regulates Translation in Mitochondria and Chloroplasts to Enhance Growth and Stress Tolerance
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DOI: 10.3389/fpls.2022.875799
Abstract: The late embryogenesis abundant (LEA)5 protein is predominantly expressed in Arabidopsis leaves in the dark, the levels of LEA5 transcripts decreasing rapidly upon illumination. LEA5 is important in plant responses to environmental stresses but the… read more here.
Keywords: late embryogenesis; lea5; abundant lea; arabidopsis ... See more keywords
Late Embryogenesis Abundant Protein–Client Protein Interactions
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DOI: 10.3390/plants9070814
Abstract: The intrinsically disordered proteins belonging to the LATE EMBRYOGENESIS ABUNDANT protein (LEAP) family have been ascribed a protective function over an array of intracellular components. We focus on how LEAPs may protect a stress-susceptible proteome.… read more here.
Keywords: protein; client protein; late embryogenesis; client ... See more keywords