Abstract
Late embryogenesis abundant (LEA) proteins are widely known to be present in higher plants and are believed to play important functional roles in embryonic development and abiotic stress responses. However, there is a current lack of systematic analyses on the LEA protein gene family in tea plant. In this study, a total of 48 LEA genes were identified using Hidden Markov Model profiles in C. sinensis, and were classified into seven distinct groups based on their conserved domains and phylogenetic relationships. Genes in the CsLEA_2 group were found to be the most abundant. Gene expression analyses revealed that all the identified CsLEA genes were expressed in at least one tissue, and most had higher expression levels in the root or seed relative to other tested tissues. Nearly all the CsLEA genes were found to be involved in seed development, and thirty-nine might play an important role in tea seed maturation concurrent with dehydration. However, only sixteen CsLEA genes were involved in seed desiccation, and furthermore, most were suppressed. Additionally, forty-six CsLEA genes could be induced by at least one of the tested stress treatments, and they were especially sensitive to high temperature stress. Furthermore, it was found that eleven CsLEA genes were involved in tea plant in response to all tested abiotic stresses. Overall, this study provides new insights into the formation of CsLEA gene family members and improves our understanding on the potential roles of these genes in normal development processes and abiotic stress responses in tea plant, particularly during seed development and desiccation. These results are beneficial for future functional studies of CsLEA genes that will help preserve the recalcitrant tea seeds for a long time and genetically improve tea plant.
Highlights
Late embryogenesis abundant (LEA) proteins were first identified 30 years ago in cotton seeds during the late stages of embryo development[1]
A total of 48 CsLEA genes were identified in C. sinensis, which was more than those CsLEA members identified in a previous study[38]
The results of the current study are consistent with the number of LEA genes found in A. thaliana (51)[3], C. songorica (44)[25], and P. trichocarpa (53)[6], etc., and more than those found in M. esculenta (26)[17], P. tabuliformis (23)[19], and S. lycopersicum (27)[16], etc., but much less than those found in B. napus (108)[4], G. hirsutum (242)[50], and S
Summary
LEA proteins were first identified 30 years ago in cotton seeds during the late stages of embryo development[1]. LEA proteins are considered to play important roles in the normal growth and development of plants, as well as roles in mitigating the detrimental effects of various stress conditions in cells These proteins were found to accumulate at high concentrations during the last period of seed maturation, concurrent with dehydration[1,23]. The expression profiles of CsLEA genes in five different tissues, during the seed development process, during the seed desiccation process, and during responses to low temperature, high temperature, drought, and ABA stresses were analyzed This systematic study provides new information on the LEA protein gene family in tea plant, and furthers our understanding of CsLEA genes associated with seed development, seed desiccation, and abiotic stress responses. Our findings will help in the genetic improvement of tea plant and contribute to the preservation of tea seeds as genetic resources for a long time
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