Legumes are an alternative to animal foods due to their high protein content. Like other legumes, Vicia faba (faba bean) has high protein content. However, faba bean breeding with classical methods is challenging due to inbreeding depression, self-incompatibility, and abortive embryo formation. The inadequacy of classical breeding methods due to the problems in the fertilization biology of the plant limits the production of new varieties. Therefore, the importance of using in vitro haploidization technique in legume breeding is increasing. Anther culture is a widely preferred tissue culture technique for obtaining haploid plants. The initial and most crucial stage in anther culture is the identification of anthers containing microspores in the appropriate developmental stage. In the study, anther samples with single and triple-nucleated microspores were cultured in MS nutrient medium containing 2,4-D (0.5 mg L-1) and Kinetin (2.5 mg L-1). In the first month of culture, embryo and embryoid-like structures were obtained at the heart stage from anthers containing microspores in the mononuclear stage, while anther samples containing microspores in the trinucleated stage were observed to darken and did not develop.
The common bean is a valuable food source in the human diet. Leklek is a local variety of common bean (Phaseolus sp.) widely grown in Mersin's Gülnar district, but little is known about this variety. In the present study, bacterial species from root nodules of this common bean variety were identified by PCR-amplified 16S ribosomal RNA (rRNA) gene and 16S-23S ribosomal RNA (rRNA) Internal Transcribed Spacer (ITS) region and sequencing. The partial 16S rRNA gene and 16S-23S rRNA ITS region sequences were submitted to the NCBI database (accession numbers MT967369, MT968518, respectively). Amplified sequences were used to construct a phylogenetic tree. Phylogenetic analysis based on the identified sequences showed that the isolate belonged to the genus Microbacterium and was closely related to Microbacterium paraoxydans. The findings presented here will provide a clue for understanding this bacterium's role in nodule formation in Phaseolus sp. (variety Leklek).
The common bean (Phaseolus vulgaris) is a plant having hermaphroditic flowers, which are self-fertilizing. Common bean is a important commercial crop and one of Turkey’s most valuable grain legumes for human consumption. Genetic variation exists within and between bean populations. These variations can have an impact on the plants morphology, including reproductive organs. Variations in size and length of reproductive organs may cause different cell numbers and various fertilization successes. In this study, the response of four determinate common bean genotypes (Akman, Bitlis 117, Göksun, and Karacaşehir) to reproductive organ structure was studied. Plants were grown at 21/16 °C (day/night) and 12 h photoperiod in a greenhouse in Mersin, Turkey. Besides focusing mainly on pollen development, fertilization success factors such as pod and seed set were also assessed. Pod and seed set were evaluated numerically for each genotype. For pollen morphology, flower buds of the equal growth stage of all four bean genotypes were collected, and these samples were analyzed by scanning electron microscopy. The species have distinct morphological characteristics concerning pollen size, ornamentation patterns of the exine, and endoaperture type. It is also crucial to examine pollen dispersion in the pollinated flowers, as it may influence reproductive success. However, pollen wall architecture was similar in all genotypes tested. Despite general morphological similarity, differences in pollen viability and pod and seed number were observed. Although Akman genotype had the largest flowers, the Karacaşehir genotype was found to be the most productive one. The findings presented here can be helpful for researchers studying bean breeding and those investigating the morphological variation in different Phaseolus genotypes.
Beans one of the essential plant protein sources for human and animal diets. Conventional breeding methods have been used to develop the cultivars of beans with high quality and high yield. However, conventional methods of plant breeding are time-consuming and laborious. Biotechnological methods can accelerate the breeding process in conventional plant breeding. However, the beans are thought to be a recalcitrant crop plant for applying biotechnological methods since plant regeneration under in vitro conditions in beans is not successful. Developing an appropriate method for in vitro bean regeneration remains a significant problem. The objective of this study was to develop a protocol for the culture of unfertilized ovaries of beans. Culture media and genotype are effective on the success of in vitro cultivation. For this reason, 12 genotypes of beans and some nutrient media such as MS and B5 with various 2,4-D/kinetin combinations were tested to obtain callus from unfertilized ovaries. The highest callus induction was obtained with a medium containing 2,4-D (0.5 mg L−1) and Kinetin (2.5 mg L−1). A literature review on beans indicates that no ovary culture has been carried out on tested varieties in this study to date.
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