TWIN SISTER OF FT (TSF) Acts As a Floral Pathway Integrator Redundantly with FT

Overview

Journal Plant Cell Physiol

Publisher Oxford University Press

Specialties Biology
Cell Biology

Date 2005 Jun 14

PMID 15951566

Citations 219

Authors

Ayako Yamaguchi

Yasushi Kobayashi

Koji Goto

Mitsutomo Abe

Takashi Araki

Affiliations

Soon will be listed here.

Abstract

In Arabidopsis, several genetic pathways controlling the floral transition (flowering) are integrated at the transcriptional regulation of FT, LFY and SOC1. TSF is the closest homolog of FT in Arabidopsis. TSF expression was induced rapidly upon activation of CONSTANS (CO). The mRNA levels of TSF and FT showed similar patterns of diurnal oscillation and response to photoperiods: an evening peak, higher levels in long day (LD) than in short day (SD) conditions, and immediate up-regulation upon day-length extension. These observations suggest that TSF is a direct regulatory target of CO. tsf mutation delayed flowering in SD conditions and enhanced the phenotype of ft in both LD and SD conditions. TSF and FT also shared similar modes of regulation by FLC, an integrator of autonomous and vernalization pathways, and other factors such as EBS and PHYB. Consistently, TSF overexpression caused a precocious flowering phenotype independent of photoperiods or CO, or FLC. These observations suggest that TSF is a new member of the floral pathway integrators and promotes flowering largely redundantly with FT but makes a distinct contribution in SD conditions. TSF and FT seem to act independently of each other and of LFY, and partially upstream of SOC1. Interestingly, the expression patterns of TSF and FT in seedlings did not overlap, although both were expressed in the phloem tissues. Our work revealed additional complexity and spatial aspects of the regulatory network at the pathway integration level. We propose that the phloem is the site where multiple regulatory pathways are integrated at the transcriptional regulation of FT and TSF.

Citing Articles

Effects of light regimes on circadian gene co-expression networks in .

Riviere Q, Raskin V, de Melo R, Boutet S, Corso M, Defrance M Plant Direct. 2024; 8(8):e70001.

PMID: 39669405 PMC: 11636548. DOI: 10.1002/pld3.70001.

Florigen and antiflorigen gene expression correlates with reproductive state in a marine angiosperm, .

Nolan C, Campbell I, Farrell-Sherman A, Ortiz B, Naish K, Stilio V bioRxiv. 2024; .

PMID: 39605329 PMC: 11601257. DOI: 10.1101/2024.11.09.622789.

Genome-wide characterization of PEBP genes in Mung bean (Vigna radiata L.) with functional analysis of VrFT1 in relation to photoperiod.

Xue R, Liu Y, Feng M, Huang Y, Zhao Y, Chen J Sci Rep. 2024; 14(1):26413.

PMID: 39488543 PMC: 11531570. DOI: 10.1038/s41598-024-73936-1.

Both the Positioned Supplemental or Night-Interruptional Blue Light and the Age of Leaves (or Tissues) Are Important for Flowering and Vegetative Growth in Chrysanthemum.

Yang J, Song J, Park Y, Jeong B Plants (Basel). 2024; 13(20).

PMID: 39458821 PMC: 11511255. DOI: 10.3390/plants13202874.

Regulates Flowering Time under Long-Day Conditions in .

Du M, Wang D, Li J, Zhu T, Lyu P, Li G Plants (Basel). 2024; 13(16).

PMID: 39204617 PMC: 11360393. DOI: 10.3390/plants13162181.