Transformação genética é considerada uma importante ferramenta auxiliar no melhoramento genético de plantas cítricas. Entretanto, a eficiência de transformação pode variar em função de diversos fatores, incluindo a própria construção gênica utilizada. Este trabalho buscou avaliar a eficiência de transformação genética de plantas de citrange 'Carrizo' [Poncirus trifoliata (L.) Raf. x Citrus sinensis (L.) Osbeck] com duas construções gênicas diferentes contendo o gene uidA (GUS) sob o controle dos promotores Arabidopsis thaliana phloem protein 2 (AtPhP2) e Arabidopsis thaliana sucrose transporter 2 (AtSuT2). Segmentos de epicótilo de plântulas germinadas in vitro foram utilizados como explantes. O gene nptII, que confere resistência ao antibiótico canamicina, foi utilizado nas construções gênicas como agente de seleção para regeneração de plantas transgênicas. O ensaio histoquímico com X-GLUC foi realizado em todas as brotações regeneradas para verificar a expressão do gene uidA. Dos 4.790 segmentos de epicótilo utilizados, registrou-se a regeneração de 366 brotações com reação positiva no ensaio histoquímico, as quais foram enxertadas em porta-enxertos cultivados in vitro. Cinco dessas brotações, de cada construção gênica, foram selecionadas para análise da PCR, com primers específicos para amplificação da sequência do gene uidA. A inserção do transgene foi confirmada por PCR em todas as brotações selecionadas. A eficiência de transformação e o número de brotos escapes, avaliada pelo teste histoquímico, variaram em função das construções gênicas utilizadas.
The bacterial disease Huanglongbing (HLB) has drastically reduced citrus production in Florida. Nutrients play an important role in plant defense mechanisms and new approaches to manage the disease with balanced nutrition are emerging. Nutrients like nitrogen (N), calcium (Ca), and magnesium (Mg) could extend the productive life of affected trees, although interactions among these nutrients in HLB-affected citrus trees are still unclear. A 2-year study was established in Florida to determine the response of HLB-affected trees to applications of N, Ca, and Mg. The study was conducted with ‘Valencia’ trees (Citrus sinensis L. Osbeck) on Swingle citrumelo (Citrus paradisi Macf. × Poncirus trifoliata L. Raf.) rootstock on a Candler sand. Applications of N at 168, 224 (recommended rate), and 280 kg⋅ha−1 N were used as the main plots. Split-plots consisted of a grower standard treatment receiving only basal Ca (51 kg⋅ha−1) and Mg (56 kg⋅ha−1); supplemental Ca (total Ca inputs: 96 kg⋅ha−1) only; supplemental Mg (total Mg inputs: 101 kg⋅ha−1) only; and supplemental Ca (total Ca inputs: 73.5 kg⋅ha−1) and Mg (total Mg inputs: 78.5 kg⋅ha−1). The following variables were measured: tree size, fruit yield, and juice quality. Although some differences in tree growth among treatments were statistically significant (e.g., greater canopy volume with Mg fertilization at 168 kg⋅ha−1 N), there was no clear and consistent effect of plant nutrition on these variables. Fruit yield was higher with Ca and Mg relative to the grower standard at the lowest N rate in 2020, and there were no other statistically significant differences among treatments. Juice acidity was significantly higher with Mg fertilization relative to other treatments in 2019. As N rates had no significant effect in this study, unlike secondary macronutrients, N rates could potentially be reduced to 168 kg N⋅ha−1 in HLB-affected citrus without affecting vegetative growth, fruit yield, and juice quality. However, this will require optimizing the supply of secondary macronutrients and all other nutrients to develop a balanced nutritional program. Ultimately, the effects of N, Ca, and Mg obtained in this 2-year study should be confirmed with longer-term studies conducted at multiple sites.
The embryo-specific Dc3 gene promoter driving the VvMybA1 anthocyanin regulatory gene was used to develop a visual selection system for the genetic transformation of citrus. Agrobacterium-mediated transformation of cell suspension cultures resulted in the production of purple transgenic somatic embryos that could be easily separated from the green non-transgenic embryos. The somatic embryos produced phenotypically normal plants devoid of any visual purple coloration. These results were also confirmed using protoplast transformation. There was minimal gene expression in unstressed one-year-old transgenic lines. Cold and drought stress did not have any effect on gene expression, while exogenous ABA and NaCl application resulted in a minor change in gene expression in several transgenic lines. When gas exchange was measured in intact leaves, the transgenic lines were similar to controls under the same environment. Our results provide conclusive evidence for the utilization of a plant-derived, embryo-specific visual reporter system for the genetic transformation of citrus. Such a system could aid in the development of an all-plant, consumer-friendly GM citrus tree.
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