Abstract
Tobacco (Nicotiana tabacum), is a world’s major non-food agricultural crop widely cultivated for its economic value. Among several color change associated biological processes, plastid pigment metabolism is of trivial importance in postharvest plant organs during curing and storage. However, the molecular mechanisms involved in carotenoid and chlorophyll metabolism, as well as color change in tobacco leaves during curing, need further elaboration. Here, proteomic analysis at different curing stages (0 h, 48 h, 72 h) was performed in tobacco cv. Bi’na1 with an aim to investigate the molecular mechanisms of pigment metabolism in tobacco leaves as revealed by the iTRAQ proteomic approach. Our results displayed significant differences in leaf color parameters and ultrastructural fingerprints that indicate an acceleration of chloroplast disintegration and promotion of pigment degradation in tobacco leaves due to curing. In total, 5931 proteins were identified, of which 923 (450 up-regulated, 452 down-regulated, and 21 common) differentially expressed proteins (DEPs) were obtained from tobacco leaves. To elucidate the molecular mechanisms of pigment metabolism and color change, 19 DEPs involved in carotenoid metabolism and 12 DEPs related to chlorophyll metabolism were screened. The results exhibited the complex regulation of DEPs in carotenoid metabolism, a negative regulation in chlorophyll biosynthesis, and a positive regulation in chlorophyll breakdown, which delayed the degradation of xanthophylls and accelerated the breakdown of chlorophylls, promoting the formation of yellow color during curing. Particularly, the up-regulation of the chlorophyllase-1-like isoform X2 was the key protein regulatory mechanism responsible for chlorophyll metabolism and color change. The expression pattern of 8 genes was consistent with the iTRAQ data. These results not only provide new insights into pigment metabolism and color change underlying the postharvest physiological regulatory networks in plants, but also a broader perspective, which prompts us to pay attention to further screen key proteins in tobacco leaves during curing.
Highlights
Tobacco (Nicotiana tabacum) is an extensively investigated model plant and one of the most widely cultivated non-food crops
31 differentially expressed proteins (DEPs) involved in carotenoid and chlorophyll metabolism were identified in tobacco leaves during curing
There was a significant decrease in the content of chlorophyll than carotenoid in tobacco leaves during curing, which was associated with the complex regulation of DEPs in carotenoid metabolism, and correlated with DEPs playing a negative role in chlorophyll biosynthesis and a positive role in chlorophyll breakdown
Summary
Tobacco (Nicotiana tabacum) is an extensively investigated model plant and one of the most widely cultivated non-food crops. Tobacco is the most important non-food agricultural economic crop and serves as a model plant organism to study fundamental biological processes [31,32]. 3 of 20 Strikingly, carotenoid, and chlorophyll metabolism associated with color change was one of the most important biological processes in tobacco leaves during curing and senescence [23,36,37]. ITRAQ-based proteomic analysis was employed to identify important regulators in pigment metabolism pathways and e2.l1u.cCidolaorteanthdePhmenoolteycpuiclaCrhamngeecshoafnTiosbmaccoofLpeaigvems deunrtinmgeCtuarbinoglism and color change in tobacco leaves during thDeuyreinllgowthiencgusritnagepr(0oche,ss4,8sihg,n7if2icha)n.tTdhifeferreesnucletssihnetrheeinlepafrocovliodrepnaerawmientesirgshLt*s, ain*atnodthbe* wmeorleecular mechoabnseirsvmeds i(nFivgoulrvee1dAi)n. A3s0t.erAissktserisks indiciantdeicsaitgensiifigncaifnictadnitffdeifrfeenrecnecsebsebtewtweeeennththeevvaalluueess aatt00hhanandd484h8 ohro7r2 7h2bhasbedasoendDounnDcaunn’scmanu’lstimpleultiple rangreatnegset tienstSiPnSSSP(S*Sp(*
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