Molecular mechanisms underlying natural deficient and ultraviolet-induced accumulation of anthocyanin in the peel of 'Jinxiu' peach.

Peach varieties that differ in red coloration due to varied anthocyanin accumulation result from transcriptional regulation by PpMYB10s, a group of specific R2R3 MYBs. Here we investigated the mechanisms driving a lack of anthocyanin in yellow-skinned 'Jinxiu' peach peel, as well as accumulation induced by UV irradiance. It was found that PpMYB10.1, PpMYB10.2 and PpMYB10.3 were positive regulators of anthocyanin accumulation, but the stimulation by PpMYB10.2 was weak. Low expression of PpMYB10.1 causes natural anthocyanin deficiency in 'Jinxiu' peel. However, the promoter sequences of PpMYB10.1 were identical in 'Jinxiu' and a naturally red-coloured peach 'Hujingmilu'. Therefore, potential negative regulator(s) upstream of PpMYB10.1 were explored. A novel R2R3-MYB repressor termed PpMYB80 was identified through comparative transcriptomic analysis and then functionally confirmed via transiently overexpressing and silencing in peach fruit, as well as transformation in tobacco. PpMYB80 directly binds to the promoter of PpMYB10.1 and inhibits its expression, but does not affect PpMYB10.3. In UV-exposed 'Jinxiu' fruit, expression of PpMYB10.3 was upregulated, while PpMYB10.1 remained low and PpMYB80 enhanced, which results in accumulation of anthocyanin in peel. This study revealed a transcriptional cascade involving PpMYB activators and repressors in regulating basal and UV-induced anthocyanin accumulation in peach peel.

SmuMYB113 is the determinant of fruit color in pepino (Solanum muricatum).

Pepino (Solanum muricatum) is an herbaceous crop phylogenetically related to tomato and potato. Pepino fruit vary in color, size and shape, and are eaten fresh. In this study, we use pepino as a fruit model to understand the transcriptional regulatory mechanisms controlling fruit quality. To identify the key genes involved in anthocyanin biosynthesis in pepino, two genotypes were studied that contrasted in foliar and fruit pigmentation. Anthocyanin profiles were analyzed, as well as the expression of genes that encode enzymes for anthocyanin biosynthesis and transcriptional regulators using both RNA-seq and quantitative PCR. The differential expression of the transcription factor genes R2R3 MYB SmuMYB113 and R3MYB SmuATV suggested their association with purple skin and foliage phenotype. Functional analysis of these genes in both tobacco and pepino showed that SmuMYB113 activates anthocyanins, while SmuATV suppresses anthocyanin accumulation. However, despite elevated expression in all tissues, SmuMYB113 does not significantly elevate flesh pigmentation, suggesting a strong repressive background in fruit flesh tissue. These results will aid understanding of the differential regulation controlling fruit quality aspects between skin and flesh in other fruiting species.

An 'activator-repressor' loop controls the anthocyanin biosynthesis in red-skinned pear.

The color of red-skinned pear (Pyrus spp.) is primarily attributed to accumulation of anthocyanins, which provide nutritional benefits for human health and are closely associated with the commercial value of fruits. Here, we reported the functional characterization of a R2R3-MYB repressor PyMYB107, which forms an 'activator-repressor' loop to control anthocyanin accumulation in the red-skinned pear. PyMYB107 overexpression inhibited anthocyanin biosynthesis in both pear calli and fruits, while virus-induced gene silencing of PyMYB107 increased anthocyanin accumulation in pear fruits. Furthermore, ectopic expression of PyMYB107 decreased anthocyanin accumulation in tomato, strawberry and tobacco. PyMYB107 can competitively bind to PybHLH3 with PyMYB10/MYB114, thereby suppressing the transcriptional activation of key anthocyanin biosynthesis genes, PyANS and PyUFGT. Site-directed mutagenesis showed that mutations within the R3 domain and EAR motif of PyMYB107 eliminated its repressive activity. Additionally, PyMYB107 exhibited a comparable expression pattern to PyMYB10/MYB114 and was transcriptionally activated by them. Our finding advanced comprehension of the repression mechanism underlying anthocyanin accumulation, providing valuable molecular insights into improving quality of pear fruits.

The R2R3 MYB Ruby1 is activated by two cold responsive ethylene response factors, via the retrotransposon in its promoter, to positively regulate anthocyanin biosynthesis in citrus.

Anthocyanins are natural pigments and dietary antioxidants that play multiple biological roles in plants and are important in animal and human nutrition. Low temperature (LT) promotes anthocyanin biosynthesis in many species including blood orange. A retrotransposon in the promoter of Ruby1, which encodes an R2R3 MYB transcription factor, controls cold-induced anthocyanin accumulation in blood orange flesh. However, the specific mechanism remains unclear. In this study, we characterized two LT-induced ETHYLENE RESPONSE FACTORS (CsERF054 and CsERF061). Both CsERF054 and CsERF061 can activate the expression of CsRuby1 by directly binding to a DRE/CRT cis-element within the retrotransposon in the promoter of CsRuby1, thereby positively regulating anthocyanin biosynthesis. Further investigation indicated that CsERF061 also forms a protein complex with CsRuby1 to co-activate the expression of anthocyanin biosynthetic genes, providing a dual mechanism for the upregulation of the anthocyanin pathway. These results provide insights into how LT mediates anthocyanin biosynthesis and increase the understanding of the regulatory network of anthocyanin biosynthesis in blood orange.

Allelic variation of BBX24 is a dominant determinant controlling red coloration and dwarfism in pear.

Variation in anthocyanin biosynthesis in pear fruit provides genetic germplasm resources for breeding, while dwarfing is an important agronomic trait, which is beneficial to reduce the management costs and allow for the implementation of high-density cultivation. Here, we combined bulked segregant analysis (BSA), quantitative trait loci (QTL), and structural variation (SV) analysis to identify a 14-bp deletion which caused a frame shift mutation and resulted in the premature translation termination of a B-box (BBX) family of zinc transcription factor, PyBBX24, and its allelic variation termed PyBBX24ΔN14. PyBBX24ΔN14 overexpression promotes anthocyanin biosynthesis in pear, strawberry, Arabidopsis, tobacco, and tomato, while that of PyBBX24 did not. PyBBX24ΔN14 directly activates the transcription of PyUFGT and PyMYB10 through interaction with PyHY5. Moreover, stable overexpression of PyBBX24ΔN14 exhibits a dwarfing phenotype in Arabidopsis, tobacco, and tomato plants. PyBBX24ΔN14 can activate the expression of PyGA2ox8 via directly binding to its promoter, thereby deactivating bioactive GAs and reducing the plant height. However, the nuclear localization signal (NLS) and Valine-Proline (VP) motifs in the C-terminus of PyBBX24 reverse these effects. Interestingly, mutations leading to premature termination of PyBBX24 were also identified in red sports of un-related European pear varieties. We conclude that mutations in PyBBX24 gene link both an increase in pigmentation and a decrease in plant height.

O uso da telemedicina em tempos de COVID: sinopse de evidências / The use of telemedicine in COVID times: synopsis of evidence

Contextualização: A necessidade do distanciamento social para prevenção da transmissão da COVID-19 permitiu o uso da telemedicina para o atendimento on-line de pacientes em determinadas situações em que o contato direto profissional/paciente não fosse estritamente necessário. Objetivo: Desenvolver uma síntese baseada nas melhores evidências científicas disponíveis sobre o uso da telemedicina no contexto da pandemia de COVID-19. Desenho de estudo: Sinopse de evidências. Metodologia: Realizou-se a busca por estudos com maiores níveis de evidências nas bases de dados Medline/PubMed, na Cochrane Library e na Embase. A busca foi realizada em junho de 2021, não houve restrição de idioma. Resultados: Foram localizadas 157 citações, sendo 81 no MEDLINE/PubMed; 10 na Cochrane Library e 66 na Embase. Seis estudos foram incluídos, destes, cinco eram revisões sistemáticas e uma revisão de escopo. Os estudos incluídos pertenciam a diferentes áreas médicas como dermatologia e emergência médica. Esses estudos foram realizados principalmente na América do Norte, Europa e Ásia. Discussão: A maioria dos estudos são provenientes de estudos observacionais e concordam que o uso da telemedicina durante a pandemia foi favorável nas mais variadas especialidades, principalmente na coleta de dados para a triagem. Conclusões: Houve um aumento considerável do uso da telemedicina durante a pandemia da COVID-19, em âmbito tanto hospitalar como ambulatorial. As consultas a distância proporcionaram proteção e segurança tanto aos pacientes como aos profissionais de saúde. Os pacientes apresentaram-se satisfeitos com o atendimento virtual. No entanto, muitos são os desafios a serem superados para implementação da telemedicina como um todo.