Počet záznamov: 1
Euglenoid flagellates: a multifaceted biotechnology platform
SYS 0236574 LBL ---naa--22--------450- 005 20240513131425.3 014 $a 000352963300013 $2 CCC 014 $a 000352963300013 $2 WOS CC. SCIE 014 $a BCI201500405603 $2 BIOSIS Citation Index 014 $a 25527385 $2 PubMed 014 $a 25527385 $2 MEDLINE 017 70
$a 10.1016/j.jbiotec.2014.11.035 $2 DOI 101 0-
$a eng 102 $a NL 200 1-
$a Euglenoid flagellates: a multifaceted biotechnology platform $f Juraj Krajčovič, Matej Vesteg, Steven D. Schwartzbach 330 $a Euglenoid flagellates are mainly fresh water protists growing in highly diverse environments making them well-suited for a multiplicity of biotechnology applications. Phototrophic euglenids possesses complex chloroplasts of green algal origin bounded by three membranes. Euglena nuclear and plastid genome organization, gene structure and gene expression are distinctly different from other organisms. Our observations on the model organism Euglena gracilis indicate that transcription of both the plastid and nuclear genome is insensitive to environmental changes and that gene expression is regulated mainly at the post-transcriptional level. Euglena plastids have been proposed as a site for the production of proteins and value added metabolites of biotechnological interest. Euglena has been shown to be a suitable protist species to be used for production of several compounds that are used in the production of cosmeceuticals and nutraceuticals, such as alpha-tocopherol, wax esters, polyunsaturated fatty acids, biotin and tyrosine. The storage polysaccharide, paramylon, has immunostimulatory properties and has shown a promise for biomaterials production. Euglena biomass can be used as a nutritional supplement in aquaculture and in animal feed. Diverse applications of Euglena in environmental biotechnology include ecotoxicological risk assessment, heavy metal bioremediation, bioremediation of industrial wastewater and contaminated water. (C) 2014 Elsevier B.V. All rights reserved. 463 -1
$1 001 umb_un_cat*0296890 $1 011 $a 0168-1656 $1 011 $a 1873-4863 $1 200 1 $a Journal of Biotechnology $v Vol. 202 (2015), pp. 135-145 $1 210 $a Amsterdam $c Elsevier B.V. $d 1984- 606 0-
$3 umb_un_auth*0256253 $a bičíkovce $X flagellates 606 0-
$3 umb_un_auth*0054686 $a proteíny $X proteins 606 0-
$3 umb_un_auth*0256254 $a fotosystémy $X photosystems 606 0-
$3 umb_un_auth*0256257 $a červenoočká $X Euglenoids $Y Euglenida 615 $n 577 $a Biochémia. Molekulárna biológia. Biofyzika 675 $a 577 700 -0
$3 umb_un_auth*0031532 $a Krajčovič $b Juraj $9 70 $4 070 701 -1
$3 umb_un_auth*0255964 $a Vesteg $b Matej $f 1982- $9 15 $4 070 701 -1
$3 umb_un_auth*0255965 $a Schwartzbach $b Steven D. $4 070 $9 15 856 9-
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Počet záznamov: 1