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Items: 1 to 20 of 131

1.

Attenuation of FLOWERING LOCUS C activity as a mechanism for the evolution of summer-annual flowering behavior in Arabidopsis.

Michaels SD, He Y, Scortecci KC, Amasino RM.

Proc Natl Acad Sci U S A. 2003 Aug 19;100(17):10102-7. Epub 2003 Aug 6.

2.

Analysis of the molecular basis of flowering time variation in Arabidopsis accessions.

Gazzani S, Gendall AR, Lister C, Dean C.

Plant Physiol. 2003 Jun;132(2):1107-14. Epub 2003 May 22.

3.

Role of FRIGIDA and FLOWERING LOCUS C in determining variation in flowering time of Arabidopsis.

Shindo C, Aranzana MJ, Lister C, Baxter C, Nicholls C, Nordborg M, Dean C.

Plant Physiol. 2005 Jun;138(2):1163-73. Epub 2005 May 20.

4.

Establishment of the winter-annual growth habit via FRIGIDA-mediated histone methylation at FLOWERING LOCUS C in Arabidopsis.

Jiang D, Gu X, He Y.

Plant Cell. 2009 Jun;21(6):1733-46. doi: 10.1105/tpc.109.067967. Epub 2009 Jun 30.

5.

FLOWERING LOCUS C EXPRESSOR family proteins regulate FLOWERING LOCUS C expression in both winter-annual and rapid-cycling Arabidopsis.

Ding L, Kim SY, Michaels SD.

Plant Physiol. 2013 Sep;163(1):243-52. doi: 10.1104/pp.113.223958. Epub 2013 Jul 30.

6.

Functional analysis of the Landsberg erecta allele of FRIGIDA.

Schmalenbach I, Zhang L, Ryngajllo M, Jiménez-Gómez JM.

BMC Plant Biol. 2014 Aug 13;14:218. doi: 10.1186/s12870-014-0218-2.

7.

FRIGIDA-independent variation in flowering time of natural Arabidopsis thaliana accessions.

Werner JD, Borevitz JO, Uhlenhaut NH, Ecker JR, Chory J, Weigel D.

Genetics. 2005 Jul;170(3):1197-207. Epub 2005 May 23.

8.

Standing genetic variation in FRIGIDA mediates experimental evolution of flowering time in Arabidopsis.

Scarcelli N, Kover PX.

Mol Ecol. 2009 May;18(9):2039-49. doi: 10.1111/j.1365-294X.2009.04145.x. Epub 2009 Mar 20.

PMID:
19317844
9.

FRIGIDA-related genes are required for the winter-annual habit in Arabidopsis.

Michaels SD, Bezerra IC, Amasino RM.

Proc Natl Acad Sci U S A. 2004 Mar 2;101(9):3281-5. Epub 2004 Feb 18.

10.
11.

Altitudinal and climatic adaptation is mediated by flowering traits and FRI, FLC, and PHYC genes in Arabidopsis.

Méndez-Vigo B, Picó FX, Ramiro M, Martínez-Zapater JM, Alonso-Blanco C.

Plant Physiol. 2011 Dec;157(4):1942-55. doi: 10.1104/pp.111.183426. Epub 2011 Oct 11.

12.

Hypomorphic alleles reveal FCA-independent roles for FY in the regulation of FLOWERING LOCUS C.

Feng W, Jacob Y, Veley KM, Ding L, Yu X, Choe G, Michaels SD.

Plant Physiol. 2011 Mar;155(3):1425-34. doi: 10.1104/pp.110.167817. Epub 2011 Jan 5.

13.
14.

Arabidopsis trithorax-related3/SET domain GROUP2 is required for the winter-annual habit of Arabidopsis thaliana.

Yun JY, Tamada Y, Kang YE, Amasino RM.

Plant Cell Physiol. 2012 May;53(5):834-46. doi: 10.1093/pcp/pcs021. Epub 2012 Feb 28.

15.

Nonadditive regulation of FRI and FLC loci mediates flowering-time variation in Arabidopsis allopolyploids.

Wang J, Tian L, Lee HS, Chen ZJ.

Genetics. 2006 Jun;173(2):965-74. Epub 2006 Mar 17.

17.

Major-effect alleles at relatively few loci underlie distinct vernalization and flowering variation in Arabidopsis accessions.

Strange A, Li P, Lister C, Anderson J, Warthmann N, Shindo C, Irwin J, Nordborg M, Dean C.

PLoS One. 2011;6(5):e19949. doi: 10.1371/journal.pone.0019949. Epub 2011 May 20.

18.

Integration of flowering signals in winter-annual Arabidopsis.

Michaels SD, Himelblau E, Kim SY, Schomburg FM, Amasino RM.

Plant Physiol. 2005 Jan;137(1):149-56. Epub 2004 Dec 23.

19.

FRIGIDA delays flowering in Arabidopsis via a cotranscriptional mechanism involving direct interaction with the nuclear cap-binding complex.

Geraldo N, Bäurle I, Kidou S, Hu X, Dean C.

Plant Physiol. 2009 Jul;150(3):1611-8. doi: 10.1104/pp.109.137448. Epub 2009 May 8.

20.

A single amino acid change in the enhancer of zeste ortholog CURLY LEAF results in vernalization-independent, rapid flowering in Arabidopsis.

Doyle MR, Amasino RM.

Plant Physiol. 2009 Nov;151(3):1688-97. doi: 10.1104/pp.109.145581. Epub 2009 Sep 15.

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