The PIN gene family in relic plant L. chinense: Genome-wide identification and gene expression profiling in different organizations and abiotic stress responses.

The auxin efflux carrier PIN-FORMED (PIN) proteins are required for the polar transport of auxin between cells through their asymmetric distribution on the plasma membrane, thus mediating the differential distribution of auxin in plants, finally, affecting plant growth and developmental processes. In this study, 11 LcPIN genes were identified. The structural characteristics and evolutionary status of LcPIN genes were thoroughly investigated and interpreted combining physicochemical property analysis, evolutionary analysis, gene structure analysis, chromosomal localization, etc. Multi-species protein sequence analysis showed that angiosperm PIN genes have strong purification options and some functional sites were predicted about PIN protein polarity, trafficking and activity in L. chinense. Further qRT-PCR and transcriptome data analysis indicated that the long LcPINs have highly expressed from globular embryo to plantlet, and the LcPIN6a started upregulated in cotyledon embryo. The LcPIN3 and LcPIN6a are both highly expressed during the development of stamens and petals and the expression of LcPIN2 is related to root elongation, suggesting that they may play an important role in these processes. Experiment data indicates that LcPIN5 and LcPIN8 might play a key role in auxin transport in Liriodendron stems and leaves under abiotic stress. Analyzed the response of LcPIN genes to abiotic stress and as a basis for uncovering the biological role of LcPIN genes in development and adaption to adverse environments. This study provides a foundation for further genetic and functional analyses.