RESUMEN
The use of inorganic copper in feed is hazardous. As probiotics of animals, Candida utilis can absorb copper ions and transform them to organic copper. This study aimed to domesticate the ability of C. utilis (CICC 32211) to absorb and transform copper ions. So, C. utilis (CICC 32211) was cultured in media with different concentrations of copper ions for 24, 48 and 72 h to identify the optimum copper ion concentration. C. utilis (CICC 32211) strains were domesticated for three generations, then the absorption and distribution of copper ions in the yeast cells were studied. We found that the optimum concentration of copper ions was 110 µg/mL. After 48 h, the number of yeast cells was low, but copper ion absorption efficiency was maximized (43.83%). Most of the enriched copper ions were distributed in the yeast cell wall (up to 30.58% when grown in the medium with 110 µg/mL copper ions), while the intracellular copper ion content was low (2.095%). High concentrations of copper ions affected the morphological structure, element content and distribution of yeast cells.
Asunto(s)
Candida , Cobre , Aclimatación , Candida/metabolismo , Cobre/metabolismo , Medios de Cultivo , IonesRESUMEN
The aim of the present study was to compare differences in composition between in vitro cultured early developmental embryos resulting from either in vitro fertilization (IVF) or intracytoplasmic sperm injection (ICSI). Non-invasive metabolomic profiling of culture media was conducted with laser tweezer Raman spectroscopy (LTRS), providing molecular information that was used to aid the diagnosis or treatment of embryos that were adversely affected by ICSI treatment, ultimately improving the ICSI embryonic developmental potential. Cattle embryos were generated via ICSI and IVF with development to the 2-, 4-, 8-, 16-,32-cell, and blastocyst stages with individual in vitro culturing occurring for 4â¯h. The culture media for embryos in different developmental stages were separately analyzed using LTRS. The resulting composition of culture media used for culturing IVF- and ICSI-derived embryos was mainly altered in contents of carbohydrates, lipids, DNA, and proteins. Bands at 1004 cm-1 (phenylalanine) and 1529â¯cm-1 (-Câ¯=â¯C-carotenoid) had specific patterns related to the metabolicactivity of embryos; using LTRS, and these may be considered as biomarkers for embryonic development. Furthermore, the vibrations of lipids at different stages increased more with assessment of ICSI culture media than in IVF media. Discriminant function analysis can be utilized for the classification of culture media used for culture of ICSI- and IVF-derived embryos. In conclusion, LTRS can be used for development of an independent assay to assess embryo status during both ICSI and IVF procedures, which provides novel insights into differences in structure and components of single cells.