Isolation and characterization of a FLOWERING LOCUS T homolog from pineapple (Ananas comosus (L.) Merr)

Gene

Volumn 505, Issue 2, 2012, Pages 368-373

  Lv, LingLing ^a   Duan, Jun ^b   Xie, JiangHui ^a   Wei, ChangBin ^a   Liu, YuGe ^a   Liu, ShengHui ^a   Sun, GuangMing ^a  

^a INSTITUTE OF TROPICAL BIOSCIENCE AND BIOTECHNOLOGY   (China)

^b SOUTH CHINA INSTITUTE OF BOTANY   (China)

Author keywords

Characterization; Flower development; FT; Isolation; Pineapple; Transformation

Indexed keywords

COMPLEMENTARY DNA; MESSENGER RNA;

AMINO ACID SEQUENCE; ARTICLE; CYMBIDIUM GOERINGII; DNA SEQUENCE; FLOWER; FLOWERING; FRUIT; GENE LOCUS; INFLORESCENCE; ISOELECTRIC POINT; MOLECULAR WEIGHT; NONHUMAN; NUCLEOTIDE SEQUENCE; OPEN READING FRAME; PHYLOGENETIC TREE; PINEAPPLE; PRIORITY JOURNAL; QUANTITATIVE ANALYSIS; REAL TIME POLYMERASE CHAIN REACTION; REVERSE TRANSCRIPTION POLYMERASE CHAIN REACTION;

AMINO ACID SEQUENCE; ANANAS; ARABIDOPSIS; BASE SEQUENCE; FLOWERS; GENE EXPRESSION REGULATION, PLANT; GENETIC LOCI; MOLECULAR SEQUENCE DATA; OPEN READING FRAMES; PLANT PROTEINS; PLANTS, GENETICALLY MODIFIED; SEQUENCE HOMOLOGY, AMINO ACID; TRANSCRIPTION, GENETIC;

ANANAS COMOSUS; ARABIDOPSIS; CYMBIDIUM GOERINGII; MAGNOLIOPHYTA; ONCIDIUM GOWER RAMSEY;

EID: 84864132124     PISSN: 03781119     EISSN: 18790038     Source Type: Journal    
DOI: 10.1016/j.gene.2012.06.011     Document Type: Article

References (23)

1. Abe M., et al. FD, a bZIP protein mediating signals from the floral path-way integrator FT at the shoot apex. Science 2005, 309(5737):1052-1056.
2. Ahn J.H., et al. A divergent external loop confers antagonistic activity on floral regulators FT and TFL1. EMBO J. 2006, 25:605-614.
3. Aki T., Shigyo M., Nakano R., Yoneyama T., Yanagisawa S. Nano scale proteomics revealed the presence of regulatory proteins including three FT-like proteins in phloem and xylem saps from rice. Plant Cell Physiol. 2008, 49(5):767-790.
4. Corbesier L., Coupland G. Photoperiodic flowering of Arabidopsis, integrating genetic and physiological approaches to characterization of the floral stimulus. Plant Cell Environ. 2005, 28:54-66.
5. Corbesier L., et al. FT protein movement contributes to long-distance signaling in floral induction of Arabidopsis. Science 2007, 316:1030-1033.
6. Endo T., Shimada T., Fujii H., Kobayashi Y., Araki T., Omura M. Ectopic expression of an FT homolog from citrus confers an early flowering phenotype on trifoliate orange (Poncirus trifoliata L. Raf.). Transgenic Res. 2005, 14(5):703-712.
7. Hemming M., Peacock W., Dennis E.S., Trevaskis B. Low-temperature and daylength cues are integrated to regulate FLOWERING LOCUS T in barley. Plant Physiol. 2008, 47:355-366.
8. Hiraoka K., Daimon Y., Araki T. FT protein: a universal long-distance mobile signal in seed plants. Plant Morphol. 2008, 19:3-13. (in Japanese with English abstract).
9. Hsu C.Y., Liu Y., Luthe D.S., Yuceer C. Poplar FT2 shortens the juvenile phase and promotes seasonal flowering. Plant Cell 2006, 18(8):1846-1861.
10. Kotoda N., et al. Molecular characterization of FLOWERING LOCUS T-like genes of apple (Malus×domestica Borkh.). Plant Cell Physiol. 2010, 51:561-575.
11. Lee J.H., Hong S.M., Yoo S.J., Park O.K., Lee J.S., Ahn J.H. Integration of floral inductive signals by Flowering locus T and suppressor of overexpression of Constans 1. Physiol. Plantarum 2006, 126:475-483.
12. Li W.M., Tao Y., Yao Y.X., Hao Y.J., You C.X. Ectopic over-expression of two apple Flowering Locus T homologues, MdFT1 and MdFT2, reduces juvenile phase in Arabidopsis. Biol. Plantarum 2010, 54(4):639-646.
13. Lifschitz E., et al. The tomato FT ortholog triggers systemic signals that regulate growth and flowering and substitute for diverse environmental stimuli. Proc. Natl. Acad. Sci. U. S. A. 2006, 103:6398-6403.
14. Lv L.L., et al. Cloning and expression analysis of a PISTILLATA homologous gene from pineapple (Ananas comosus L. Merr). Int. J. Mol. Sci. 2012, 13:1039-1053.
15. Pin P.A., et al. An antagonistic pair of FT homologs mediates the control of flowering time in sugar beet. Science 2010, 330(6009):1397-1400.
16. Searle I., Coupland G. Induction of flowering by seasonal changes in photoperiod. EMBO J. 2004, 23:1217-1222.
17. Tamaki S., Matsuo S., Wong H.L., Yokoi S., Shimamoto K. Hd3a protein is a mobile flowering signal in rice. Science 2007, 316:1033-1036.
18. Wigge P.A. FT, a mobile developmental signal in plants. Curr. Biol. 2011, 21(9):374-378.
19. Wigge P.A., et al. Integration of spatial and temporal information during floral induction in Arabidopsis. Science 2005, 309:1056-1059.
20. Yanovsky M.J., Kay S.A. Molecular basis of seasonal time measurement in Arabidopsis. Nature 2003, 419:308-312.
21. Yuri T., José R.B. Silencing of the ACC synthase gene ACACS2 causes delayed flowering in pineapple [Ananas comosus (L.) Merr.]. J. Exp. Bot. 2006, 57(14):3953-3960.
22. Zeevaart J.A.D. FT protein, not mRNA, is the phloem-mobile signal for flowering. Plant Physiol. 2007, (Online Essay 25.2).
23. Zong, C.W., 2007. Clong and expression of flower development related genes from grape (VITIS VINIFERA × VLABRUSCA). Dissertation. Nanjing Agricultural University.