Systematic analysis of the non-specific lipid transfer protein gene family in Nicotiana tabacum reveal its potential roles in stress responses

Abstract

Plant non-specific lipid transfer proteins (nsLTPs) are characterized by an eight-cysteine motif backbone stabilized by four disulfide bonds; these proteins can bind or transfer lipids. NsLTPs play important roles in plant growth and development, and in the responses to abiotic and biotic stresses. In this study, 50, 51, and 100 nsLTPs from Nicotiana sylvestris, N. tomentosiformis, and their descendant N. tabacum, respectively, were identified and classified into six types (I, II, IV, V, VII, and VIII). The phylogeny, gene structures, motifs, tertiary structures, gene duplications and expression patterns were systematically analyzed. The intron/exon patterns and the conserved motifs were highly similar among the same types of nsLTP genes. Purifying selection and segmental duplication dominated the expansion of the nsLTPs family during evolution. Cis-regulatory elements of the NtLTP promoters were involved in light responsiveness, abiotic stress, and phytohormone responsiveness. Expression pattern analysis using RNA-seq and qPCR revealed that NtLTP family genes exhibited tissue-specific expression patterns and they have potential roles in response to abiotic and biotic stresses, especially drought stress, and resistance to black shank and bacterial wilt. Furthermore, overexpression of NtLTPI.38 in tobacco increased drought tolerance by improving the antioxidant defense ability, through reducing O2•— and H2O2 accumulation and increasing the number of lateral roots. These results provide a comprehensive overview of this gene family and provide valuable insights for the functional characterization of nsLTP family genes.