SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2806207306> ?p ?o ?g. }

Showing items 1 to 100 of ±164 with 100 items per page.

W2806207306 endingPage "1381" @default.
W2806207306 startingPage "1367" @default.
W2806207306 abstract "The rapid assessment of metabolic engineering strategies in plants is aided by crops that provide simple, high throughput transformation systems, a sequenced genome, and the ability to evaluate the resulting plants in field trials. Camelina sativa provides all of these attributes in a robust oilseed platform. The ability to perform field evaluation of Camelina is a useful, and in some studies essential benefit that allows researchers to evaluate how traits perform outside the strictly controlled conditions of a greenhouse. In the field the plants are subjected to higher light intensities, seasonal diurnal variations in temperature and light, competition for nutrients, and watering regimes dictated by natural weather patterns, all which may affect trait performance. There are difficulties associated with the use of Camelina. The current genetic resources available for Camelina pale in comparison to those developed for the model plant Arabidopsis thaliana; however, the sequence similarity of the Arabidopsis and Camelina genomes often allows the use of Arabidopsis as a reference when additional information is needed. Camelina's genome, an allohexaploid, is more complex than other model crops, but the diploid inheritance of its three subgenomes is straightforward. The need to navigate three copies of each gene in genome editing or mutagenesis experiments adds some complexity but also provides advantages for gene dosage experiments. The ability to quickly engineer Camelina with novel traits, advance generations, and bulk up homozygous lines for small-scale field tests in less than a year, in our opinion, far outweighs the complexities associated with the crop." @default.
W2806207306 created "2018-06-13" @default.
W2806207306 creator A5000487114 @default.
W2806207306 creator A5002481092 @default.
W2806207306 creator A5004769739 @default.
W2806207306 creator A5021980502 @default.
W2806207306 creator A5028579015 @default.
W2806207306 creator A5064506244 @default.
W2806207306 creator A5073440131 @default.
W2806207306 creator A5076083920 @default.
W2806207306 creator A5091465313 @default.
W2806207306 date "2018-06-07" @default.
W2806207306 modified "2023-10-14" @default.
W2806207306 title "Camelina sativa, an oilseed at the nexus between model system and commercial crop" @default.
W2806207306 cites W109782732 @default.
W2806207306 cites W1505923313 @default.
W2806207306 cites W1537548857 @default.
W2806207306 cites W1544900705 @default.
W2806207306 cites W1605328886 @default.
W2806207306 cites W1834418858 @default.
W2806207306 cites W1883634895 @default.
W2806207306 cites W1943894807 @default.
W2806207306 cites W1973945861 @default.
W2806207306 cites W1983278548 @default.
W2806207306 cites W1985424385 @default.
W2806207306 cites W1989469642 @default.
W2806207306 cites W2011540589 @default.
W2806207306 cites W2018166958 @default.
W2806207306 cites W2020789632 @default.
W2806207306 cites W2028759835 @default.
W2806207306 cites W2032579724 @default.
W2806207306 cites W2032994619 @default.
W2806207306 cites W2033086875 @default.
W2806207306 cites W2035073001 @default.
W2806207306 cites W2048953978 @default.
W2806207306 cites W2050394838 @default.
W2806207306 cites W2059881601 @default.
W2806207306 cites W2068325529 @default.
W2806207306 cites W2070262411 @default.
W2806207306 cites W2087205430 @default.
W2806207306 cites W2087773181 @default.
W2806207306 cites W2088096656 @default.
W2806207306 cites W2091503940 @default.
W2806207306 cites W2097162044 @default.
W2806207306 cites W2098139667 @default.
W2806207306 cites W2098998842 @default.
W2806207306 cites W2110517246 @default.
W2806207306 cites W2114891756 @default.
W2806207306 cites W2115603949 @default.
W2806207306 cites W2115734610 @default.
W2806207306 cites W2116122104 @default.
W2806207306 cites W2119296473 @default.
W2806207306 cites W2125864173 @default.
W2806207306 cites W2129816330 @default.
W2806207306 cites W2137041498 @default.
W2806207306 cites W2142113544 @default.
W2806207306 cites W2149627083 @default.
W2806207306 cites W2153623070 @default.
W2806207306 cites W2165118406 @default.
W2806207306 cites W2178310991 @default.
W2806207306 cites W2194045660 @default.
W2806207306 cites W222854903 @default.
W2806207306 cites W2316688933 @default.
W2806207306 cites W2346468091 @default.
W2806207306 cites W2461013690 @default.
W2806207306 cites W2464756764 @default.
W2806207306 cites W2473874951 @default.
W2806207306 cites W2518176425 @default.
W2806207306 cites W2523665343 @default.
W2806207306 cites W2539960657 @default.
W2806207306 cites W2549285722 @default.
W2806207306 cites W2550084063 @default.
W2806207306 cites W2559593064 @default.
W2806207306 cites W2566521729 @default.
W2806207306 cites W2589116415 @default.
W2806207306 cites W2591403942 @default.
W2806207306 cites W2606387661 @default.
W2806207306 cites W2613131694 @default.
W2806207306 cites W2625879599 @default.
W2806207306 cites W2736722896 @default.
W2806207306 cites W2738652641 @default.
W2806207306 cites W2761794675 @default.
W2806207306 cites W2764320489 @default.
W2806207306 cites W2773816027 @default.
W2806207306 cites W2783502825 @default.
W2806207306 cites W2793183278 @default.
W2806207306 cites W588571379 @default.
W2806207306 cites W60328577 @default.
W2806207306 cites W71305870 @default.
W2806207306 cites W80720326 @default.
W2806207306 cites W813926399 @default.
W2806207306 cites W965337497 @default.
W2806207306 doi "https://doi.org/10.1007/s00299-018-2308-3" @default.
W2806207306 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29881973" @default.
W2806207306 hasPublicationYear "2018" @default.
W2806207306 type Work @default.
W2806207306 sameAs 2806207306 @default.
W2806207306 citedByCount "29" @default.