Page 26 - 2011no93

付建新等

, 2011,

FT

/

TFL1

基因家族调控高等植物生长发育的分子机理

,

分子植物育种

(online) Vol.9 No.93 pp.xx-xx (doi: 10.5376/mpb.cn.2011.09.0093)

1669

Baurle I., and Dean C., 2006, The timing of developmental

transitions in plants, Cell, 125(4): 655-664

Blazquez M.A., Ahn J.H., and Weigel D., 2003, A

thermosensory pathway controlling flowering time in

Arabidopsis thaliana

, Nature Genetics, 33(2): 168-171

Bohlenius H., Huang T., Charbonnel-Campaa L., Brunner A.M.,

Jansson S., Strauss S.H., and Nilsson O., 2006, CO/FT

regulatory module controls timing of flowering and

seasonal growth cessation in trees, Science, 312(5776):

1040-1043

Borner R., Kampmann G., Chandler J., Gleiûner R., Wisman E.,

Apel K., and Melzer S., 2000, A MADS domain gene

involved in the transition to flowering in Arabidopsis, The

Plant Journal, 24(5): 591-599

Bradley D., Carpenter R., Copsey L., Vincent C., Rothstein S.,

and Coen E., 1996, Control of inflorescence architecture

in Antirrhinum, Nature, 379: 791-797

Bradley D., Ratcliffe O., Vincent C., Carpenter R., and Coen E.,

1997, Inflorescence commitment and architecture in

Arabidopsis, Science, 275(5296): 80-83

Carmel-Goren L., Liu Y.S., Lifschitz E., and Zamir D., 2003,

The SELF-PRUNING gene family in tomato, Plant

Molecular Biology, 52: 1215-1222

Carmona M.J., Calonje M., and Martinez-Zapater J.M., 2007,

The FT/TFL1 gene family in grapevine, Plant Molecular

Biology, 63: 637-650

Cerdan P.D., and Chory J., 2003, Regulation of flowering time

by light quality, Nature, 423(6942): 881-885

Chab D., Kolar J., Olson M.S., and Storchova H., 2008, Two

FLOWERING LOCUS T (FT) homologs in chenopodium

rubrum differ in expression patterns, Planta, 228(6):

929-940

Chailakhyan M.K., 1936, On the hormonal theory of plant

development, Bull. Acad. Scr. Ussr, 12: 443-447

Chardon F., and Damerval C., 2005, Phylogenomic analysis of

the PEBP gene family in cereals, Journal of Molecular

Evolution, 61(5): 579-590

Chen F.F., Huang Y.J., Wang Z.J., Liu G.H., Huang J.Q., 2009,

Cloning and sequence analysis of the

FlOWERING

LOCUS T

homologous genes from

Carya cathayensis

,

Xinan Linxueyuan Xuebao (Journal of Southwest Forestry

University), 29(6): 34-37 (

陈芳芳

,

黄有军

,

王正加

,

刘

根华

, and

黄坚钦

. 2009,

山核桃

FLOWERING LOCUST

同源基因的克隆与序列分析

,

西南林学院学报

, 29(6):

34-37)

Conti L., and Bradley D., 2007, TERMINAL FLOWER1 is a

mobile signal controlling Arabidopsis architecture, The

Plant Cell, 19: 767-778

Danilevskaya O.N., Meng X., and Ananiev E.V., 2010, Concerted

modification of flowering time and inflorescence architect-

ture by ectopic expression of TFL1-Like genes in maize,

Plant physiology, 153: 238-251

Danilevskaya O.N., Meng X., Hou Z., Ananiev E.V., and

Simmons C.R., 2008, A genomic and expression

compendium of the expanded PEBP gene family from

maize, Plant Physiology, 146: 250-264

Fabien Chardon, and Damerval C., 2005, Phylogenomic

analysis of the PEBP gene family in cereals, Journal of

Molecular Evolution, 61(5): 579-590

Faure S., Higgins J., Turner A., and Laurie D.A., 2007, The

FLOWERING LOCUS T-Like gene family in barley

(

Hordeum vulgare

), Genetics, 176: 599-609

Foucher F., Morin J., Courtiade J., Cadioux S., Ellis N., Banfield

M.J., and Rameau C., 2003, DETERMINATE and LATE

FLOWERING are two TERMINAL FLOWER1/CENTR-

ORADIALIS homologs that control two distinct phases of

flowering initiation and development in pea, The Plant

Cell, 15: 2742-2754

Grandy D.K., Hanneman E., Bunzow J., Shih M., Machida

C.A., Bidlack J.M., and Civelli O., 1990, Purification,

cloning, and tissue distribution of a 23-kD rat protein

isolated by morphine affinity chromatography, Mol.

Endocrinol., 4(9): 1370-1376

Gyllenstrand N., Clapham D., Kallman T., and Lagercrantz U.,

2007, A norway spruce FLOWERING LOCUS T homolog

is implicated in control of growth rhythm in conifers,

Plant Physiology, 144: 248-257

Hanzawa Y., Money T., and Bradley D., 2005, A single amino

acid converts a repressor to an activator of flowering,

PNAS, 102(21): 7748-7753

Hayama R., Agashe B., Luley E., King R., and Coupland G.,

2007, A circadian rhythm set by dusk determines the

expression of FT homologs and the short-day photoperiodic

flowering response in Pharbitis, The Plant Cell, 19:

2988-3000

Hemming M.N., Peacock W.J., Dennis E.S., and Trevaskis B.,

2008, Low-temperature and daylength cues Are integrated

to regulate FLOWERING LOCUS T in barley, Plant

Physiology, 147: 355-366

Hisamatsu T., and King R.W., 2008, The nature of floral

signals in Arabidopsis.

Ⅱ

. Roles for FLOWERING

LOCUS T (FT) and gibberellin, Journal of Experimental

Botany, 59(14): 3821-3829

Hou C.J., and Yang C.H., 2009, Functional analysis of FT and

TFL1 orthologs from orchid (oncidium gower ramsey)