SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2793295430> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W2793295430 endingPage "289" @default.
W2793295430 startingPage "281" @default.
W2793295430 abstract "The growing demand for biotechnological products against limited metabolic capacity of industrially used microorganisms has led to an increased interest on strain-improvement over the last several decades, which aimed to enhance metabolite yield, substrate uptake and tolerance of the strains. Among a few techniques of strain-improvement, genome shuffling is the most recent and promising approach used for rapid strain-improvement that can yield a new strain by combining whole genomes of multi-parental microorganisms using the principles of protoplast fusion. Genome shuffling has brought a major breakthrough in the strain-improvement concept as it is found to be effective and reliable for expressing complex phenotypes. This review will discuss the technical aspects and applications of genome shuffling for various industrial strains to present its current status and recent progress. In the concluding remarks, a summary will be presented focusing on the major challenges and future outlooks of this technology." @default.
W2793295430 created "2018-03-29" @default.
W2793295430 creator A5002859247 @default.
W2793295430 creator A5008329498 @default.
W2793295430 creator A5035448843 @default.
W2793295430 creator A5079356849 @default.
W2793295430 creator A5088596691 @default.
W2793295430 creator A5091323033 @default.
W2793295430 date "2018-06-01" @default.
W2793295430 modified "2023-09-24" @default.
W2793295430 title "Improvement of industrially important microbial strains by genome shuffling: Current status and future prospects" @default.
W2793295430 cites W1015467125 @default.
W2793295430 cites W1454231949 @default.
W2793295430 cites W1731495230 @default.
W2793295430 cites W1812119143 @default.
W2793295430 cites W1861853116 @default.
W2793295430 cites W1873391629 @default.
W2793295430 cites W1894238494 @default.
W2793295430 cites W1964144538 @default.
W2793295430 cites W1967197994 @default.
W2793295430 cites W1975502834 @default.
W2793295430 cites W1978292413 @default.
W2793295430 cites W1978957886 @default.
W2793295430 cites W1982283831 @default.
W2793295430 cites W1983370139 @default.
W2793295430 cites W1994671550 @default.
W2793295430 cites W2003047227 @default.
W2793295430 cites W2005840419 @default.
W2793295430 cites W2011175113 @default.
W2793295430 cites W2014038648 @default.
W2793295430 cites W2016753579 @default.
W2793295430 cites W2023691552 @default.
W2793295430 cites W2025292642 @default.
W2793295430 cites W2031394761 @default.
W2793295430 cites W2031399328 @default.
W2793295430 cites W2033058992 @default.
W2793295430 cites W2036973877 @default.
W2793295430 cites W2037060512 @default.
W2793295430 cites W2045186448 @default.
W2793295430 cites W2048588375 @default.
W2793295430 cites W2058748791 @default.
W2793295430 cites W2059916860 @default.
W2793295430 cites W2060214056 @default.
W2793295430 cites W2066234891 @default.
W2793295430 cites W2069010302 @default.
W2793295430 cites W2078657524 @default.
W2793295430 cites W2078833660 @default.
W2793295430 cites W2080004865 @default.
W2793295430 cites W2083288504 @default.
W2793295430 cites W2101061289 @default.
W2793295430 cites W2109490815 @default.
W2793295430 cites W2109865878 @default.
W2793295430 cites W2113928662 @default.
W2793295430 cites W2118178248 @default.
W2793295430 cites W2126764428 @default.
W2793295430 cites W2127981822 @default.
W2793295430 cites W2139705669 @default.
W2793295430 cites W2140966993 @default.
W2793295430 cites W2141374544 @default.
W2793295430 cites W2142032844 @default.
W2793295430 cites W2155221721 @default.
W2793295430 cites W2168301196 @default.
W2793295430 cites W2199186428 @default.
W2793295430 cites W2232340304 @default.
W2793295430 cites W2295142606 @default.
W2793295430 cites W2298352440 @default.
W2793295430 cites W2320491442 @default.
W2793295430 cites W2333402273 @default.
W2793295430 cites W2414934125 @default.
W2793295430 cites W2461803674 @default.
W2793295430 cites W2498841693 @default.
W2793295430 cites W2555893316 @default.
W2793295430 cites W2569370316 @default.
W2793295430 cites W2573161628 @default.
W2793295430 cites W2581617979 @default.
W2793295430 cites W2603851658 @default.
W2793295430 cites W2619317246 @default.
W2793295430 cites W2752693571 @default.
W2793295430 cites W2760588982 @default.
W2793295430 cites W2761225427 @default.
W2793295430 cites W2765362120 @default.
W2793295430 cites W2790544642 @default.
W2793295430 cites W844952568 @default.
W2793295430 doi "https://doi.org/10.1016/j.biortech.2018.02.118" @default.
W2793295430 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29519633" @default.
W2793295430 hasPublicationYear "2018" @default.
W2793295430 type Work @default.
W2793295430 sameAs 2793295430 @default.
W2793295430 citedByCount "48" @default.
W2793295430 countsByYear W27932954302018 @default.
W2793295430 countsByYear W27932954302019 @default.
W2793295430 countsByYear W27932954302020 @default.
W2793295430 countsByYear W27932954302021 @default.
W2793295430 countsByYear W27932954302022 @default.
W2793295430 countsByYear W27932954302023 @default.
W2793295430 crossrefType "journal-article" @default.
W2793295430 hasAuthorship W2793295430A5002859247 @default.
W2793295430 hasAuthorship W2793295430A5008329498 @default.