Non-conventional yeasts as sources of ene-reductases for the bioreduction of chalcones

Thirteen Non-Conventional Yeasts (NCYs) have been investigated for their ability to reduce activated C=C bonds of chalcones to obtain the corresponding dihydrochalcones. A possible correlation between bioreducing capacity of the NCYs and the substrate structure was estimated. Generally, whole-cells of the NCYs were able to hydrogenate the C=C double bond occurring in (E)-1,3-diphenylprop-2-en-1-one, while worthy bioconversion yields were obtained when the substrate exhibited the presence of a deactivating electron-withdrawing Cl substituent on the B-ring. On the contrary, no conversion was generally found, with a few exceptions, in the presence of an activating electron-donating substituent OH. The bioreduction aptitude of the NCYs was apparently correlated to the logP value: Compounds characterized by a higher logP exhibited a superior aptitude to be reduced by the NCYs than compounds with a lower logP value

Efficient production of callus-derived doubled haploids through isolated microspore culture in eggplant (Solanum melongena L.)

Production of doubled haploids (DHs) through androgenesis induction is an important biotechnological tool for plant breeding. In some species, DHs are efficiently obtained through embryogenesis from isolated microspore cultures. In eggplant, however, this process is still at its infancy, despite the economic relevance of this important agricultural crop. To date, only two studies have focused previously on this process, suggesting that in eggplant microspore cultures, the only morphogenic response is callus formation. Given the notable lack of studies on eggplant microspore cultures, in this work we explored this process with different experimental approaches. We studied the response of different cultivars and characterized the development of microspores induced to divide and proliferate. We demonstrated that microspore-derived embryos (MDEs) can be produced in eggplant; however, MDEs stopped at the globular stage, to turn into euploid and principally mixoploid calli. From these calli, 60 % of DH plants could be regenerated. In order to promote microspore induction we evaluated the effect of polyethylene glycol (PEG) and mannitol. PEG, but not mannitol, significantly increased induction of microspore embryogenesis. We also tested the ability of eight different media compositions to promote efficient plant regeneration from calli. In order to test it in a genotype-independent manner, we previously developed a method to generate clonal callus populations derived from single microspore-derived calli. Together, the results presented hereby constitute an efficient way to produce eggplant DHs through microspore culture. In addition, they contribute significant insights into the knowledge of the particularities of androgenesis induction in this species. © 2012 Springer Science+Business Media B.V.We acknowledge Mrs. Nuria Palacios for her excellent technical work, as well as the staff of the COMAV greenhouses for their valuable help. Thanks are also due to Dr. Santiago Vilanova for providing us with the SSRs used in this work. This work was supported by grant from Spanish MICINN AGL2010-17895 to JMSS.Corral Martínez, P.; Seguí-Simarro, JM. (2012). Efficient production of callus-derived doubled haploids through isolated microspore culture in eggplant (Solanum melongena L.). Euphytica. 187(1):47-61. https://doi.org/10.1007/s10681-012-0715-zS4761187

Production of “super-males” of asparagus by anther culture and its detection with SSR-ESTs

Anther culture is used to develop asparagus “super-male” (di-haploids) in asparagus, which can be used to develop “all-male” varieties, by crossing them with suitable females; their progenies will be formed only by males which is advantageous for producers. This report describe a new anther culture protocol adapted to “Morado de Huétor”, a Spanish tetraploid landrace, and studied the different factors involved in callus proliferation success from anther explants such as the microspore development stage, or the type of stress used to induce the symmetric division of the microspores, to obtain a high success rate (90 %). For plantlets regenerates from anther culture (PRACs) regeneration we develop a proliferation media supplemented with a combination of pCPA and BA able to induce callus proliferation and plantlet regeneration in the same step in a 50 % of calli, simplifying the procedure. The high percentage of heterozygous male recovery, originated from somatic cells, is an important problem in the anther culture, and to elucidate the origin of PRACs we have combined different tools: ploidy analysis, characterization with the linked sex-marker Asp1-T7 and with EST-SRRs. We can establish that 50 % of PRACs obtained in this work were regenerated from diploid microspores of “Morado de Huétor”, regenerating diploid, di-diploid and tetra-diploid plantlets. The di-diploids males (MMmm) would generate a ratio male:female of 5:1 (83.3 %) and the tetra-diploid males (MMMMmmmm) a ratio male:female of 69:1 (98.6 %), so the tetra-diploid males could be considered “super-males” and be used to develop “all-male” varieties of “Morado de Huétor”.Fil: Regalado González, Jose Javier. Instituto de Horticultura Subtropical y Mediterránea La Mayora; España. Consejo Superior de Investigaciones Científicas; España. Universidad de Málaga; España. Consejo Nacional de Investigaciones Científicas y Técnicas; ArgentinaFil: Carmona Martín, E.. Instituto de Horticultura Subtropical y Mediterránea La Mayora; España. Consejo Superior de Investigaciones Científicas; España. Universidad de Málaga; EspañaFil: Madrid, E.. Instituto de Agricultura Sostenible; España. Consejo Superior de Investigaciones Científicas; EspañaFil: Moreno, R.. Universidad de Córdoba; EspañaFil: Gil, J.. Universidad de Córdoba; EspañaFil: Encina, C. L.. Instituto de Horticultura Subtropical y Mediterránea La Mayora; España. Consejo Superior de Investigaciones Científicas; España. Universidad de Málaga; Españ

Abstracts of 1st International Conference on Computational & Applied Physics

This book contains the abstracts of the papers presented at the International Conference on Computational & Applied Physics (ICCAP’2021) Organized by the Surfaces, Interfaces and Thin Films Laboratory (LASICOM), Department of Physics, Faculty of Science, University Saad Dahleb Blida 1, Algeria, held on 26–28 September 2021. The Conference had a variety of Plenary Lectures, Oral sessions, and E-Poster Presentations. Conference Title: 1st International Conference on Computational & Applied PhysicsConference Acronym: ICCAP’2021Conference Date: 26–28 September 2021Conference Location: Online (Virtual Conference)Conference Organizer: Surfaces, Interfaces, and Thin Films Laboratory (LASICOM), Department of Physics, Faculty of Science, University Saad Dahleb Blida 1, Algeria