RT Journal Article
SR Electronic
T1 SlARF10, an auxin response factor, is required for chlorophyll and sugar accumulation during tomato fruit development
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 253237
DO 10.1101/253237
A1 Lihua Mei
A1 Yujin Yuan
A1 Mengbo Wu
A1 Zehao Gong
A1 Qian Zhang
A1 Fengqing Yang
A1 Qiang Zhang
A1 Yingqing Luo
A1 Xin Xu
A1 Wenfa Zhang
A1 Mingjun Miao
A1 Zhengguo Li
A1 Wei Deng
YR 2018
UL http://biorxiv.org/content/early/2018/01/24/253237.abstract
AB Tomato green fruits photosynthesis contributes to fruit growth and carbon economy. Tomato auxin response factor 10 (SlARF10) is one of the members of ARF family. Our results showed that SlARF10 locates in the nucleus and has no transcriptional activity. SlARF10 was expressed in various tomato tissues, but highly expressed in green fruit. Up-regulation of SlARF10 produced dark green phenotype of fruits, whereas down-regulation of SlARF10 had light green phenotype. Autofluorescence and chlorophyll content analysis confirmed the phenotypes, which indicated that SlARF10 plays an important role in chlorophyll accumulation in tomato fruits. Up-regulation of SlARF10 increased the photochemical potential in tomato leaves and fruits. Furthermore, the SlARF10 up-regulating lines displayed improved accumulation of starch in fruits, whereas SlARF10 suppressed lines had inhibited starch accumulation. Up-regulation of SlARF10 increased the expression of AGPases, the starch biosynthesis genes. SlARF10 up-regulating lines had increased accumulation of SlGLK1 and SlGLK2 transcripts in fruits. The promoter sequence of SlGLK1 gene had two conserved ARF binding sites. SlARF10 may regulate the expression of SlGLK1, thus controlling chlorophyll accumulation, photosynthesis rates and sugars synthesis in fruits. Our study provided more insight on the link between auxin signaling, chloroplastic activity and sugar metabolism during the development of tomato fruits.ARFsAuxin Response FactorsRNAiRNA interferenceGLKGOLDEN2-LIKEDET1/hp2The DE-ETIOLATED 1DDB1UV-DAMAGED DNA-BINDING PROTEIN 1KNOXsClass I KNOTTED1-LIKE HOMEOBOXGC-MSGas Chromatography-Mass SpectrometryqRT-PCRQuantitative real time PCRTFsTranscription factorsWTWild-typeMRMiddle regionDB domainDNA binding domainCTDC-terminal interaction domainADTranscriptional activatorsRDTranscriptional repressorsB3N-terminal DNA-binding domainHighlight SlARF10 played an important role in the chlorophyll accumulation and photosynthesis in tomato fruits. SlARF10 was involved in starch accumulation by controlling the expression of starch synthesis related enzyme genes. SlARF10 may regulate the expression of SlGLK1, thus controlling chlorophyll accumulation, photosynthesis rates and sugars synthesis in tomato fruits.