Breeding and Pollination Biology of Combretum constrictum (Benth) Laws. (Combretaceae)Ekeke, Chimezie; Agbagwa, Ikechukwu
2015 Tropical Plant Biology
doi: 10.1007/s12042-015-9151-2
Combretum species possess horticultural attributes. We investigated the phenology, floral morphology, breeding and pollination biology of Combretum constrictum. Visual observation for morphology, day and night monitoring for floral visitors, pollen viability test by the lactophenol cotton blue method, and different pollination experiments were performed on the species. C. constrictum possesses terminal racemes and flowers all year round, with the peak blooming period occurring between August and November. Fruit set predominantly occurs from August to December. The average lifespan of an inflorescence, as observed in the species, is 32 days, while the lifespan of a single flower is 7–12 days. Anthesis is diurnal, proceeds centripetally and lasts approximately 5 h. The average viability of the pollen was 97.05 % on Day 1, decreasing to 11.64 % on Day 4. Visitors from ten families {Dolichoderinae, Hymenoptera (Formicidae), Muscidae, Nectariniidae, Drosophilidae, Tettigoniidae, Acrididae, Hesperiidae, Achatinidae and Myrmicinae} were encountered on flowers of the species during the study period. Five of these visitors, including Cinnyris venustus, Meranoplus bicolor, Camponotus consobrinus and Technomyrmex sp., are the main pollinators of the species. These pollinators predominantly visited the flowers for a few hours until the opening of the flower buds and continued visiting the flowers until 2 days after the opening of the last flower bud on the inflorescence. The flowers are unscented but are brilliant red-pink, suggesting that the visitors/pollinators are attracted to the flowers due to their colour. After pollination, the number of immature fruits in this species ranged from 6 to 51, and averaged 25.80. The percentage of fruit set and mature fruits per inflorescence varied from one treatment to another (self-pollinated, 2.60 ± 1.10; hand cross-pollinated, 4.55 ± 1.43; and visitor-pollinated, 8.75 ± 2.65). These findings indicate that C. constrictum is self-compatible, but the presence of pollinators increases the number of fruits and probably enhances the fertility of the fruits. The species exhibits entomophily (insect pollination) and ornithophily (bird pollination) syndromes.
Sulfur Metabolism and Stress Defense Responses in PlantsCapaldi, Flávia; Gratão, Priscila; Reis, André; Lima, Leonardo; Azevedo, Ricardo
2015 Tropical Plant Biology
doi: 10.1007/s12042-015-9152-1
Sulfur management is an important issue in crop plant nutrition. Sulfur has a role in fundamental processes such as electron transport, structure and regulation. It is also associated with photosynthetic oxygen production, abiotic and biotic stress resistance and secondary metabolism. Sulfate uptake, reductive assimilation and integration into cysteine and methionine are the central processes that direct oxidized and reduced forms of organically bound S into their various functions. Sulfur-containing defense compounds that are crucial for plant survival during biotic and abiotic stress include elemental sulfur, hydrogen sulfide, glutathione, phytochelatins, S-rich proteins and various secondary metabolites. Formation of these compounds in plants is closely related to the supply, demand, uptake and assimilation of S. This review will highlight the role of S during the stress response in plants and the relationship between S metabolism and primary S nutrition.
RNA-Seq Transcriptome Analysis in Date Palm Suggests Multi-Dimensional Responses to Salinity StressRadwan, Osman; Arro, Jie; Keller, Caroline; Korban, Schuyler
2015 Tropical Plant Biology
doi: 10.1007/s12042-015-9155-y
The ability of date palm tree to survive under adverse abiotic conditions renders it as a valuable genomic resource for identifying tolerance genes. While mechanisms for salt tolerance have been heavily investigated in model as well as in some agronomic crops, no such studies have been undertaken in date palm. The aim of this study is to identify stress tolerance-related genes through transcriptomic analysis to support further functional studies. Young roots of Deglet Beida cultivar have been subjected to salt stress treatment, and used for RNA-Seq expression profiling and transmission electron microscopy (TEM) analysis. A total of 1939 genes are found to be differentially expressed between mock-treated roots and salt-stressed roots using log2FC ≥15≤−15. Many of these regulatory genes belong to DNA/RNA, protein, membrane, and signaling functional categories, suggesting that these genes play functional roles in tolerance to salt stress. Furthermore, RNA-Seq analysis has revealed activation of abscisic acid signaling pathways through SNF1-related protein kinases 2. Additionally, certain key genes involved in sodium uptake and transport are down-regulated, suggesting a potential mechanism for slowing down up-take and transport of salt solutes within plant tissues. TEM analysis has revealed that stressed roots exhibit plasmolysis in cortical cells of the distal region, while epidermal cells do not. Interestingly, root-tip regions of stressed roots do not exhibit plasmolysis, and this is likely due to higher solute contents present in these sink cells. These findings provide new information on multi-dimensional responses of date palm to salinity stress.
Cell Viability, Mitotic Index and Callus Morphology of Byrsonima verbascifolia (Malpighiaceae)Chiavegatto, Raquel; Castro, Ana; Marçal, Mayra; Pádua, Marlúcia; Alves, Eduardo; Techio, Vânia
2015 Tropical Plant Biology
doi: 10.1007/s12042-015-9150-3
The combined analysis of cell viability, mitotic index and callus morphology of species of commercial interest may favor the identification of cell masses with embryogenic characteristics at early stages of cultivation, allowing the development or improvement of protocols for in vitro plant regeneration through indirect embryogenesis. Byrsonima verbascifolia L. (DC.) (Malpighiaceae) is a Brazilian medicinal species native to the Cerrado, which has a low seed germination rate due to tegument dormancy. This study aimed to identify cells with embryogenic characteristics during growth of callus of B. verbascifolia, by assessing cell viability, mitotic index and cell morphology. Callus was induced from leaf explants and inoculated on MS medium with 4.52 μM 2,4-D and 4.44 μM benzylaminopurine (BAP). Friable calli were obtained at four distinct growth phases: lag (until the 30th), exponential (from 31st to the 70th day), linear (from 71st to the 100th day) and decline (from 101st to the 120th day). Calli with 20 and 30 days showed cells with embryogenic characteristics, that is, isodiametric shape, juxtaposed, with small vacuoles, thin cell wall and presence of amyloplasts. After 120 days, calli were mostly elongated cells with lower cell viability and mitotic index.
Seed-Specific Stable Expression of the α-AI1 Inhibitor in Coffee Grains and the In Vivo Implications for the Development of the Coffee Berry BorerAlbuquerque, Érika; Bezerra, Caroline; Romero, Juan; Valencia, Jorge; Valencia-Jiménez, Arnubio; Pimenta, Lucas; Barbosa, Aulus; Silva, Maria; Meneguim, Ana; Sá, Maria; Engler, Gilbert; Almeida-Engler, Janice; Fernandez, Diana; Grossi-de-Sá, Maria
2015 Tropical Plant Biology
doi: 10.1007/s12042-015-9153-0pmid: 26697127
Genetic transformation of coffee (Coffea spp.), the second most traded commodity worldwide, is an alternative approach to introducing features that cannot be introgressed by traditional crossings. The transgenic stability, heritability and quantitative and spatial expression patterns of the seed-specific promoter phytohemagglutinin (PHA-L) from Phaseolus vulgaris were characterized in genetically modified C. arabica expressing the α-amylase inhibitor-1 (α-AI1) gene. The α-AI1 inhibitor shows considerable activity toward digestive enzymes of the coffee berry borer (CBB) Hypothenemus hampei. This insect pest expends its life cycle almost entirely in coffee berries. Transgene containment in the fruit is important to meeting food and environmental safety requirements for releasing genetically modified (GM) crops. PCR analysis of T2 coffee plants showed a Mendelian single-copy segregation pattern. Ectopic transgene expression was only detected in coffee grains, as demonstrated by reverse transcription-PCR analysis of different plant tissues. An intense immunocytochemical signal associated with α-AI1 protein expression was localized to endospermic cells. In addition, a delay in the larval development of CBB was observed after challenging transgenic coffee seeds with the insect. These results indicate that the PHA-L promoter might be a useful tool in coffee for the seed-specific expression of genes related to coffee bean productivity, quality and pest protection. The biotechnological applicability of the α-AI1 gene for controlling CBB is also discussed. This work is the first report showing a seed-specific transgene expression in coffee plants.
Cytogenetic and ITS-psbA-trnH Sequence Analysis for Phylogenetic Inference in Mucuna sp. of IndiaJaheer, M.; Chopra, R.; Kunder, K.; Bhat, Deepika; Rashmi, K.; Sathyanarayana, N.
2015 Tropical Plant Biology
doi: 10.1007/s12042-015-9154-z
This paper reports new chromosomal information and earliest proof on efficacy of nrITS and cp-psbA-trnH gene sequences for barcoding and phylogenetic studies in Mucuna sp. First cytological evidence on M. sempervirens and M. bracteata revealed symmetrical karyotype in both the species. Meiotic anomalies evident from the formation of chromosomal laggards and bridges in M. gigantea and M. atropurpurea and unreduced pollens in M. bracteata suggest evolutionary events that might have shaped annual species in this genus. Molecular investigations using nrITS and cp-psbA-trnH sequences revealed them to be phylogenetically informative. Vis-à-vis individual genes, combined sequences of ITS and psbA-trnH sequences offered reliable data for species delineation. The results summarized here are expected to galvanize molecular taxonomic studies and open-up newer means for answering phylogenetic questions in this genus.
Genome wide polymorphisms and yield heterosis in rice (Oryza sativa subsp. indica)Waters, Daniel; Subbaiyan, Gopala; Mani, Elangovan; Singh, Sukhpal; Vaddadi, Satyadev; Baten, Abdul; Henry, Robert
2015 Tropical Plant Biology
doi: 10.1007/s12042-015-9156-x
The linear relationship between genetic distance and heterosis within maize heterotic groups has inspired efforts to predict heterosis using molecular markers in other species. In this study, three cytoplasmic male sterile and three restorer lines from a hybrid rice breeding program were crossed in all possible (9) combinations and the F1 offspring grown in replicated trials in three locations. Whole genome sequence analyses were used to identify hybrid pair genome-wide polymorphisms and the extent to which these polymorphisms were associated with heterosis estimated. The number of total hybrid pair SNP ranged from 150,823 to 331,876 and mid-parent heterosis from −13.6 % to 18.6 %. Hybrid pair total SNP, total INDEL, gene SNP and gene INDEL counts were generally correlated at the whole genome and chromosome level. There was a close correlation between chromosome SNP and INDEL frequencies while gene presence-absence analysis found little difference between cross combinations. The relationship between whole genome SNP and heterosis was best explained by a second order polynomial of negative sign, suggesting a positive heterotic response may be achieved by maintaining a balance between inbreeding and outbreeding depression, and that genome wide polymorphisms may have a role in predicting heterosis in rice.