Abstract

The fruits of various pepper cultivars are characterized by a different color, which is determined by the pigment ratio; carotenoids dominate in ripe fruits, while chlorophylls, in immature fruits. A key regulator of carotenoid biosynthesis is the phytoene synthase encoded by the PSY gene. The Capsicum annuum genome contains two isoforms of this enzyme, localized in leaf (PSY2) and fruit (PSY1) plastids. In this work, the complete PSY1 and PSY2 genes were identified in nine C. annuum cultivars, which differ in ripe fruit color. PSY1 and PSY2 sequence variability was 2.43 % (69 SNPs) and 1.21 % (36 SNPs). The most variable were PSY1 proteins of the cultivars ‘Maria’ (red-fruited) and ‘Sladkij shokolad’ (red-brown-fruited). All identified PSY1 and PSY2 homologs contained the phytoene synthase domain HH-IPPS and the transit peptide. In the PSY1 and PSY2 HH-IPPS domains, functionally significant sites were determined. For all accessions studied, the active sites (YAKTF and RAYV), aspartate-rich substrate-Mg2+-binding sites (DELVD and DVGED), and other functional residues were shown to be conserved. Transit peptides were more variable, and their similarity in the PSY1 and PSY2 proteins did not exceed 78.68 %. According to the biochemical data obtained, the largest amounts of chlorophylls and carotenoids across the cultivars studied were detected in immature and ripe fruits of the cv. ‘Sladkij shokolad’ and ‘Shokoladnyj’. Also, ripe fruits of the cv. ‘Nesozrevayuschij’ (green-fruited) were marked by significant chlorophyll content, but a minimum of carotenoids. The PSY1 and PSY2 expression patterns were determined in the fruit pericarp at three ripening stages in ‘Zheltyj buket’, ‘Sladkij shokolad’, ‘Karmin’ and ‘Nesozrevayuschij’, which have different ripe fruit colors: yellow, red-brown, dark red and green, respectively. In the leaves of the cultivars studied, PSY1 expression levels varied significantly. All cultivars were characterized by increased PSY1 transcription as the fruit ripened; the maximum transcription level was found in the ripe fruit of ‘Sladkij shokolad’, and the lowest, in ‘Nesozrevayuschij’. PSY2 transcripts were detected not only in the leaves and immature fruits, but also in ripe fruits. Assessment of a possible correlation of PSY1 and PSY2 transcription with carotenoid and chlorophyll content revealed a direct relationship between PSY1 expression level and carotenoid pigmentation during fruit ripening. It has been suggested that the absence of a typical pericarp pigmentation pattern in ‘Nesozrevayuschij’ may be associated with impaired chromoplast formation.

Highlights

  • The genus Capsicum includes, according to various estimates, 30–35 species, five of which are domesticated: C. annuum, C. chinense, C. frutescens, C. pubescens, and C. baccatum (Moscone et al, 2007; Dias et al, 2013)

  • Genomic DNA was isolated from freshly col­ lected, ground in liquid nitrogen, leaves of each of the analyzed pepper cultivars, according to (Puchooa, 2004). 100 ng of each obtained preparation was used as a template for PSY1 and PSY2 amplification

  • The amplification primers were previously developed based on the genome sequences of C. annuum PSY1 (LOC107868281 bifunctional 15-cis-phytoene synthase, chromoplastic, Gene ID: 107868281) and PSY2 (LOC107859651 phytoene synthase 2, chloroplastic, Gene ID: 107859651) available in the NCBI database

Read more

Summary

Introduction

The genus Capsicum includes, according to various estimates, 30–35 species, five of which are domesticated: C. annuum, C. chinense, C. frutescens, C. pubescens, and C. baccatum (Moscone et al, 2007; Dias et al, 2013). Peppers, both sweet and hot (chili), have a high dietary value as they are rich in antioxidants, including vitamin C, flavonoids, and carotenoids (Sun et al, 2007; CervantesPaz et al, 2014). Pepper, which fleshy fruits are enriched with various types of carotenoids, is one of the main sources of antioxidants in the human diet In this regard, the obtaining of new pepper varieties is an important task of modern breeding (Berry et al, 2019; Sun, Li, 2020)

Methods
Results
Conclusion

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.