Article
Agronomy
B. D. Haokip, K. Nagendran, D. Alice, L. Rajendran, S. K. Manoranjitham, G. Karthikeyan
Summary: The field survey in Tamil Nadu revealed the infection of chilli plants by CaCV and GBNV, with the CaCV-TN-CBE isolate showing potential evolution through recombination and reassortment mechanisms. The nucleotide sequences of CaCV-TN-CBE isolate were determined, demonstrating close relation with China and Taiwan isolates based on different RNA segments.
EUROPEAN JOURNAL OF PLANT PATHOLOGY
(2021)
Article
Agronomy
Noemi L. Acuna-Fuentes, Marcela Vargas-Hernandez, Samantha de Jesus Rivero-Montejo, Luisa K. Rivas-Ramirez, Israel Macias-Bobadilla, Viviana Palos-Barba, Eric M. Rivera-Munoz, Ramon G. Guevara-Gonzalez, Irineo Torres-Pacheco
Summary: Tobacco mosaic virus is a major threat to chili pepper production, and current management methods are limited. This study found that the use of TiO2 nanoparticles can reduce symptoms, decrease viral load, and improve morphological characteristics in pepper plants infected with tobacco mosaic virus, suggesting a novel control method.
Article
Agronomy
Takahiro Maki, Hirokazu Kusaka, Yuki Matsumoto, Akira Yamazaki, Shohei Yamaoka, Sho Ohno, Motoaki Doi, Yoshiyuki Tanaka
Summary: The seedless mutant tn-1 in chili pepper is caused by a mutation in CaCKI1, which encodes histidine kinase involved in female gametophyte development. An amino acid insertion in the receiver domain of CaCKI1 may be the mutation responsible for tn-1.
THEORETICAL AND APPLIED GENETICS
(2023)
Article
Agriculture, Multidisciplinary
Ruoling Tang, Iwan Supit, Ronald Hutjes, Fen Zhang, Xiaozhong Wang, Xuanjing Chen, Fusuo Zhang, Xinping Chen
Summary: This study adapted the WOFOST model to quantify the dry matter production of chili pepper and analyze the effects of fertilizer management, climate, and soil conditions on its yield. The results showed that the model performed well in simulating the growth dynamics of chili pepper and provided insights on the yield-nutrient interactions. These findings are significant for the cultivation and fertilization strategies of chili pepper.
AGRICULTURAL SYSTEMS
(2023)
Article
Biochemistry & Molecular Biology
Yeonhwa Jo, Hoseong Choi, Jeong Hun Lee, Sang Hyun Moh, Won Kyong Cho
Summary: This study provides a comprehensive overview of viromes in 15 major pepper cultivars through RNA sequencing. Bean broad wilt virus 2 (BBWV2) and cucumber mosaic virus (CMV) were identified as the major viruses infecting pepper plants, with different cultivars showing variations in virus infection and symptoms.
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
(2022)
Review
Food Science & Technology
Di Zhang, Xiaoxia Sun, Maurizio Battino, Xiaoou Wei, Jiyong Shi, Lei Zhao, Si Liu, Jianbo Xiao, Bolin Shi, Xiaobo Zou
Summary: This study compared the bioactive composition, organoleptic properties, and pharmacological activities of Sichuan pepper (pericarps and leaves) and chili pepper (fruits). It found that both peppers are rich in alkylamides, polyphenols, and odorants, but the structures of their bioactive ingredients are significantly different. Capsaicinoids are primarily identified in chili peppers while coumarins are specific to Sichuan pepper. The pungent sensations evoked by capsaicin and hydroxyl-alpha-sanshool are distinct due to their interactions with membrane ion channels. Additionally, extracts and compounds from both peppers show potential in alleviating various health conditions, but further clinical trials are needed to confirm their effects.
TRENDS IN FOOD SCIENCE & TECHNOLOGY
(2021)
Article
Plant Sciences
Felipe Cervantes-Hernandez, Neftali Ochoa-Alejo, Octavio Martinez, Jose Juan Ordaz-Ortiz
Summary: This study compared the differences in secondary metabolism during chili pepper fruit development between wild and domesticated varieties, and found that trait selection affects the metabolism of chili pepper fruit development. It was also observed that there may be a heterosis effect in the F1 progeny.
FRONTIERS IN PLANT SCIENCE
(2022)
Article
Entomology
Manuel Silva-Valenzuela, Reyna Isabel Rojas-Martinez, Victor M. Zuniga-Mayo
Summary: This study evaluated the resistance of two chili varieties to B. cockerelli. The results showed that the CJ-2018 variety exhibited high resistance against B. cockerelli and can be considered as a resistant plant variety for pest management.
Article
Genetics & Heredity
Hector Lopez-Moreno, Ana Celia Basurto-Garduno, Maria Alejandra Torres-Meraz, Eric Diaz-Valenzuela, Sergio Arellano-Arciniega, Juan Zalapa, Ruairidh J. H. Sawers, Angelica Cibrian-Jaramillo, Luis Diaz-Garcia
Summary: This study identified new genomic regions associated with domestication traits in chili peppers, including fruit shape, seedlessness, and growth habit. These findings contribute to the understanding of the genetic basis of Capsicum domestication and can guide strategies for the conservation and improvement of genetic resources.
FRONTIERS IN GENETICS
(2023)
Article
Plant Sciences
Maria de la Luz Buendia-Valverde, Fernando C. Gomez-Merino, Tarsicio Corona-Torres, Rodrigo Anibal Mateos-Nava, Libia I. Trejo-Tellez
Summary: Photosynthesis is a crucial process supporting life on Earth, but unfavorable environmental conditions and toxic metals may limit its efficiency in plants, with genotypes showing varying responses. This study evaluated the photosynthetic parameters of different chili pepper varieties exposed to cadmium (Cd), thallium (Tl), and vanadium (V), and found that these metals could either inhibit or stimulate photosynthetic parameters depending on the genotype and dosage.
Article
Plant Sciences
Alan Flores-Diaz, Christian Escoto-Sandoval, Felipe Cervantes-Hernandez, Jose J. Ordaz-Ortiz, Corina Hayano-Kanashiro, Humberto Reyes-Valdes, Ana Garces-Claver, Neftali Ochoa-Alejo, Octavio Martinez
Summary: Gene co-expression networks are powerful tools for understanding functional interactions between genes. We present an algorithm to construct gene functional networks for genes annotated in a given biological process or other aspects of interest. The algorithm is based on the correlation of time expression profiles and ensures robustness by repeatedly finding gene expression relations in independent genotypes. Additionally, we propose an algorithm to identify transcription factor candidates for regulating hub genes within the network.
Article
Genetics & Heredity
Kenta Shirasawa, Munetaka Hosokawa, Yasuo Yasui, Atsushi Toyoda, Sachiko Isobe
Summary: We report the genome sequence of Capsicum annuum 'Takanotsume', a popular Japanese chili pepper landrace, obtained through long-read sequencing and optical mapping. The genome assembly consists of 12 pseudomolecules, covering 97.0% of the estimated genome size, and predicts 34,324 high-confidence genes. Comparative genomics analysis reveals nucleotide sequence and genome structure variations between 'Takanotsume' and related Capsicum species. This genome sequence data will accelerate pan-genomics and breeding of Capsicum, and facilitate the study of genetic mechanisms underlying important traits of 'Takanotsume'.
Article
Biochemistry & Molecular Biology
Shuyan Song, Shu-Yuan Song, Peiwen Nian, Dexin Lv, Yunhe Jing, Shan Lu, Qiang Wang, Fei Zhou
Summary: Carotenoids are important for both plants and human health. This study investigated the regulation of carotenoid biosynthesis during fruit ripening in chili peppers, and identified key genes and transcription factors involved in this process.
Article
Horticulture
Yoshiyuki Tanaka, Ami Mitani, Nodoka Shimizu, Tanjuro Goto, Yuichi Yoshida, Ken-ichiro Yasuba
Summary: A new seedless mutant, tn-1, was discovered in sweet pepper breeding, offering potential benefits for processing and consumption. Genetic analysis revealed that seedlessness is controlled by a single recessive gene, with the mutant serving as a useful breeding material for developing seedless sweet pepper.
SCIENTIA HORTICULTURAE
(2021)
Article
Plant Sciences
Anja Roediger, Birgit Agne, Dirk Dobritzsch, Stefan Helm, Fraenze Mueller, Nina Poetzsch, Sacha Baginsky
Summary: In the process of bell pepper (Capsicum annuum) fruit ripening, the conversion from chloroplasts to chromoplasts involves significant changes in the levels of various enzymes, including maintenance of high levels of specific complexes and enzymes, an increase in enzymes related to heterotrophic plastid metabolism, and a shift in abundance of enzymes related to chlorophyll catabolism and carotenoid biosynthesis. Despite these changes, certain proteins remain constant, suggesting a unique metabolic pathway in non-climacteric fruits like bell pepper.