SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2161458733> ?p ?o ?g. }

Showing items 1 to 100 of ±169 with 100 items per page.

W2161458733 endingPage "363" @default.
W2161458733 startingPage "351" @default.
W2161458733 abstract "Geranyl diphosphate (GPP), the precursor of most monoterpenes, is synthesized in plastids from dimethylallyl diphosphate and isopentenyl diphosphate by GPP synthases (GPPSs). In heterodimeric GPPSs, a non-catalytic small subunit (GPPS-SSU) interacts with a catalytic large subunit, such as geranylgeranyl diphosphate synthase, and determines its product specificity. Here, snapdragon (Antirrhinum majus) GPPS-SSU was over-expressed in tomato fruits under the control of the fruit ripening-specific polygalacturonase promoter to divert the metabolic flux from carotenoid formation towards GPP and monoterpene biosynthesis. Transgenic tomato fruits produced monoterpenes, including geraniol, geranial, neral, citronellol and citronellal, while exhibiting reduced carotenoid content. Co-expression of the Ocimum basilicum geraniol synthase (GES) gene with snapdragon GPPS-SSU led to a more than threefold increase in monoterpene formation in tomato fruits relative to the parental GES line, indicating that the produced GPP can be used by plastidic monoterpene synthases. Co-expression of snapdragon GPPS-SSU with the O. basilicum α–zingiberene synthase (ZIS) gene encoding a cytosolic terpene synthase that has been shown to possess both sesqui- and monoterpene synthase activities resulted in increased levels of ZIS-derived monoterpene products compared to fruits expressing ZIS alone. These results suggest that re-direction of the metabolic flux towards GPP in plastids also increases the cytosolic pool of GPP available for monoterpene synthesis in this compartment via GPP export from plastids." @default.
W2161458733 created "2016-06-24" @default.
W2161458733 creator A5005438302 @default.
W2161458733 creator A5005511937 @default.
W2161458733 creator A5019490440 @default.
W2161458733 creator A5033878915 @default.
W2161458733 creator A5036859704 @default.
W2161458733 creator A5052501119 @default.
W2161458733 creator A5055995962 @default.
W2161458733 creator A5068235508 @default.
W2161458733 creator A5081379499 @default.
W2161458733 date "2013-05-16" @default.
W2161458733 modified "2023-10-01" @default.
W2161458733 title "Cytosolic monoterpene biosynthesis is supported by plastid-generated geranyl diphosphate substrate in transgenic tomato fruits" @default.
W2161458733 cites W1506526805 @default.
W2161458733 cites W1669895398 @default.
W2161458733 cites W1971033871 @default.
W2161458733 cites W1977475901 @default.
W2161458733 cites W1980346224 @default.
W2161458733 cites W1982392530 @default.
W2161458733 cites W1986124559 @default.
W2161458733 cites W1986677365 @default.
W2161458733 cites W1989080426 @default.
W2161458733 cites W1990589501 @default.
W2161458733 cites W1992103687 @default.
W2161458733 cites W1994470176 @default.
W2161458733 cites W1997191182 @default.
W2161458733 cites W1998486923 @default.
W2161458733 cites W1998745287 @default.
W2161458733 cites W2000887481 @default.
W2161458733 cites W2001256007 @default.
W2161458733 cites W2003523649 @default.
W2161458733 cites W2005669816 @default.
W2161458733 cites W2009233681 @default.
W2161458733 cites W2009348301 @default.
W2161458733 cites W2017256148 @default.
W2161458733 cites W2023212501 @default.
W2161458733 cites W2023943027 @default.
W2161458733 cites W2024426942 @default.
W2161458733 cites W2026280531 @default.
W2161458733 cites W2026688176 @default.
W2161458733 cites W2029904068 @default.
W2161458733 cites W2034815044 @default.
W2161458733 cites W2036243085 @default.
W2161458733 cites W2040781918 @default.
W2161458733 cites W2041218125 @default.
W2161458733 cites W2042722673 @default.
W2161458733 cites W2044143173 @default.
W2161458733 cites W2045439754 @default.
W2161458733 cites W2046146648 @default.
W2161458733 cites W2046331410 @default.
W2161458733 cites W2048710714 @default.
W2161458733 cites W2055080581 @default.
W2161458733 cites W2056189298 @default.
W2161458733 cites W2060003782 @default.
W2161458733 cites W2062382198 @default.
W2161458733 cites W2064947257 @default.
W2161458733 cites W2065106907 @default.
W2161458733 cites W2067155039 @default.
W2161458733 cites W2069454693 @default.
W2161458733 cites W2072450061 @default.
W2161458733 cites W2074899487 @default.
W2161458733 cites W2082484489 @default.
W2161458733 cites W2085685413 @default.
W2161458733 cites W2086967972 @default.
W2161458733 cites W2091113436 @default.
W2161458733 cites W2096928872 @default.
W2161458733 cites W2097379503 @default.
W2161458733 cites W2103915747 @default.
W2161458733 cites W2106858983 @default.
W2161458733 cites W2121021883 @default.
W2161458733 cites W2122587586 @default.
W2161458733 cites W2125671793 @default.
W2161458733 cites W2129702544 @default.
W2161458733 cites W2130331264 @default.
W2161458733 cites W2131486174 @default.
W2161458733 cites W2132135175 @default.
W2161458733 cites W2133755314 @default.
W2161458733 cites W2134249696 @default.
W2161458733 cites W2144786521 @default.
W2161458733 cites W2149712976 @default.
W2161458733 cites W2155417437 @default.
W2161458733 cites W2157391140 @default.
W2161458733 cites W2159181928 @default.
W2161458733 cites W2159693423 @default.
W2161458733 cites W2162492360 @default.
W2161458733 cites W2165546719 @default.
W2161458733 cites W2168920342 @default.
W2161458733 cites W2249219263 @default.
W2161458733 cites W4252377912 @default.
W2161458733 doi "https://doi.org/10.1111/tpj.12212" @default.
W2161458733 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23607888" @default.
W2161458733 hasPublicationYear "2013" @default.
W2161458733 type Work @default.
W2161458733 sameAs 2161458733 @default.
W2161458733 citedByCount "106" @default.
W2161458733 countsByYear W21614587332013 @default.
W2161458733 countsByYear W21614587332014 @default.