The Expanding World of Plant J-domain Proteins

Overview

Journal CRC Crit Rev Plant Sci

Publisher CRC Press

Date 2020 Nov 23

PMID 33223602

Citations 11

Authors

Amit K Verma

Chetana Tamadaddi

Yogesh Tak

Silviya S Lal

Sierra J Cole

Justin K Hines

Chandan Sahi

Affiliations

Soon will be listed here.

Abstract

Plants maintain cellular proteostasis during different phases of growth and development despite a barrage of biotic and abiotic stressors in an ever-changing environment. This requires a collaborative effort of a cadre of molecular chaperones. Hsp70s and their obligate co-chaperones, J-domain proteins (JDPs), are arguably the most ubiquitous and formidable components of the cellular chaperone network, facilitating numerous and diverse cellular processes and allowing survival under a plethora of stressful conditions. JDPs are also among the most versatile chaperones. Compared to Hsp70s, the number of JDP-encoding genes has proliferated, suggesting the emergence of highly complex Hsp70-JDP networks, particularly in plants. Recent studies indicate that besides the increase in the number of JDP encoding genes; regulatory differences, neo- and sub-functionalization, and inter- and intra-class combinatorial interactions, is rapidly expanding the repertoire of Hsp70-JDP systems. This results in highly robust and functionally diverse chaperone networks in plants. Here, we review the current status of plant JDP research and discuss how the paradigm shift in the field can be exploited toward a better understanding of JDP function and evolution.

Citing Articles

Genome-wide analysis of HSP70 gene family in Beta vulgaris and in-silico expression under environmental stress.

Alam P, Al Balawi T, Manzoor M, Sabir I BMC Plant Biol. 2025; 25(1):214.

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Dph4 is an Hsp70 Cochaperone with Iron-Binding Properties.

Verma A, Sharma P, Islam Z, Biswal A, Tak Y, Sahi C ACS Omega. 2024; 9(36):37650-37661.

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Nematode-resistance loci in upland cotton genomes are associated with structural differences.

Cohen Z, Perkin L, Wagner T, Liu J, Bell A, Arick 2nd M G3 (Bethesda). 2024; 14(9).

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Comparative genomic analysis reveals expansion of the DnaJ gene family in Lagerstroemia indica and its members response to salt stress.

Qin J, Hou X, Wang H, Yuan T, Wei H, Liu G Genetica. 2024; 152(2-3):101-117.

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