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Items: 1 to 20 of 72

1.

Transcriptome Profiling Unravels a Vital Role of Pectin and Pectinase in Anther Dehiscence in Chrysanthemum.

Li Q, Wu Z, Wu H, Fang W, Chen F, Teng N.

Int J Mol Sci. 2019 Nov 22;20(23). pii: E5865. doi: 10.3390/ijms20235865.

2.

The heterologous expression in Arabidopsis thaliana of a chrysanthemum gene encoding the BBX family transcription factor CmBBX13 delays flowering.

Ping Q, Cheng P, Huang F, Ren L, Cheng H, Guan Z, Fang W, Chen S, Chen F, Jiang J.

Plant Physiol Biochem. 2019 Nov;144:480-487. doi: 10.1016/j.plaphy.2019.10.019. Epub 2019 Oct 18.

PMID:
31655346
3.

Overexpression of CmMYB15 provides chrysanthemum resistance to aphids by regulating the biosynthesis of lignin.

An C, Sheng L, Du X, Wang Y, Zhang Y, Song A, Jiang J, Guan Z, Fang W, Chen F, Chen S.

Hortic Res. 2019 Jul 11;6:84. doi: 10.1038/s41438-019-0166-y. eCollection 2019.

4.

The Heterologous Expression of a Chrysanthemum nankingense TCP Transcription Factor Blocks Cell Division in Yeast and Arabidopsis thaliana.

Qi X, Qu Y, Gao R, Jiang J, Fang W, Guan Z, Zhang F, Zhao S, Chen S, Chen F, Wang H.

Int J Mol Sci. 2019 Sep 29;20(19). pii: E4848. doi: 10.3390/ijms20194848.

5.

Strigolactone represses the synthesis of melatonin, thereby inducing floral transition in Arabidopsis thaliana in an FLC-dependent manner.

Zhang Z, Hu Q, Liu Y, Cheng P, Cheng H, Liu W, Xing X, Guan Z, Fang W, Chen S, Jiang J, Chen F.

J Pineal Res. 2019 Sep;67(2):e12582. doi: 10.1111/jpi.12582. Epub 2019 May 6.

PMID:
31012494
6.

Genome-wide association study identifies favorable SNP alleles and candidate genes for waterlogging tolerance in chrysanthemums.

Su J, Zhang F, Chong X, Song A, Guan Z, Fang W, Chen F.

Hortic Res. 2019 Feb 1;6:21. doi: 10.1038/s41438-018-0101-7. eCollection 2019.

7.

Identification of favorable SNP alleles and candidate genes responsible for inflorescence-related traits via GWAS in chrysanthemum.

Chong X, Su J, Wang F, Wang H, Song A, Guan Z, Fang W, Jiang J, Chen S, Chen F, Zhang F.

Plant Mol Biol. 2019 Mar;99(4-5):407-420. doi: 10.1007/s11103-019-00826-w. Epub 2019 Jan 30.

PMID:
30701353
8.

The Constitutive Expression of a Chrysanthemum ERF Transcription Factor Influences Flowering Time in Arabidopsis thaliana.

Xing X, Jiang J, Huang Y, Zhang Z, Song A, Ding L, Wang H, Yao J, Chen S, Chen F, Fang W.

Mol Biotechnol. 2019 Jan;61(1):20-31. doi: 10.1007/s12033-018-0134-z.

PMID:
30448907
9.

The heterologous expression of CmBBX22 delays leaf senescence and improves drought tolerance in Arabidopsis.

Liu Y, Chen H, Ping Q, Zhang Z, Guan Z, Fang W, Chen S, Chen F, Jiang J, Zhang F.

Plant Cell Rep. 2019 Jan;38(1):15-24. doi: 10.1007/s00299-018-2345-y. Epub 2018 Sep 20.

PMID:
30238422
10.

Cellular and molecular characteristics of pollen abortion in chrysanthemum cv. Kingfisher.

Wang F, Zhong X, Huang L, Fang W, Chen F, Teng N.

Plant Mol Biol. 2018 Oct;98(3):233-247. doi: 10.1007/s11103-018-0777-y. Epub 2018 Sep 10.

PMID:
30203234
11.

Over-expression of chrysanthemum CmDREB6 enhanced tolerance of chrysanthemum to heat stress.

Du X, Li W, Sheng L, Deng Y, Wang Y, Zhang W, Yu K, Jiang J, Fang W, Guan Z, Chen F, Chen S.

BMC Plant Biol. 2018 Sep 4;18(1):178. doi: 10.1186/s12870-018-1400-8.

12.

The over-expression of a chrysanthemum gene encoding an RNA polymerase II CTD phosphatase-like 1 enzyme enhances tolerance to heat stress.

Qi Y, Liu Y, Zhang Z, Gao J, Guan Z, Fang W, Chen S, Chen F, Jiang J.

Hortic Res. 2018 Jul 1;5:37. doi: 10.1038/s41438-018-0037-y. eCollection 2018.

13.

The chrysanthemum leaf and root transcript profiling in response to salinity stress.

Cheng P, Gao J, Feng Y, Zhang Z, Liu Y, Fang W, Chen S, Chen F, Jiang J.

Gene. 2018 Oct 20;674:161-169. doi: 10.1016/j.gene.2018.06.075. Epub 2018 Jun 23.

PMID:
29944951
14.

Association analysis of drought tolerance in cut chrysanthemum (Chrysanthemum morifolium Ramat.) at seedling stage.

Li P, Su J, Guan Z, Fang W, Chen F, Zhang F.

3 Biotech. 2018 May;8(5):226. doi: 10.1007/s13205-018-1258-3. Epub 2018 Apr 26.

15.

Investigation of Differences in Fertility among Progenies from Self-Pollinated Chrysanthemum.

Wang F, Zhong X, Wang H, Song A, Chen F, Fang W, Jiang J, Teng N.

Int J Mol Sci. 2018 Mar 13;19(3). pii: E832. doi: 10.3390/ijms19030832.

16.

MicroRNA and Putative Target Discoveries in Chrysanthemum Polyploidy Breeding.

Zhang F, Zhao J, Xu S, Fang W, Chen F, Teng N.

Int J Genomics. 2017;2017:6790478. doi: 10.1155/2017/6790478. Epub 2017 Dec 13.

17.

GC-MS Analysis of the Volatile Constituents in the Leaves of 14 Compositae Plants.

Wang Y, Li X, Jiang Q, Sun H, Jiang J, Chen S, Guan Z, Fang W, Chen F.

Molecules. 2018 Jan 18;23(1). pii: E166. doi: 10.3390/molecules23010166.

18.

Dynamic and epistatic QTL mapping reveals the complex genetic architecture of waterlogging tolerance in chrysanthemum.

Su J, Yang X, Zhang F, Wu S, Xiong S, Shi L, Guan Z, Fang W, Chen F.

Planta. 2018 Apr;247(4):899-924. doi: 10.1007/s00425-017-2833-2. Epub 2017 Dec 22.

PMID:
29273861
19.

Caveolin-1 in multi drug resistance and two-field lymphadenectomy for thoracic esophageal squamous cell carcinoma.

Fang W, Ruan W, Lin S, Chen Y, Zhu K.

Pak J Pharm Sci. 2017 Sep;30(5(Special)):1857-1866.

PMID:
29084658
20.

Whole genome duplication enhances the photosynthetic capacity of Chrysanthemum nankingense.

Dong B, Wang H, Liu T, Cheng P, Chen Y, Chen S, Guan Z, Fang W, Jiang J, Chen F.

Mol Genet Genomics. 2017 Dec;292(6):1247-1256. doi: 10.1007/s00438-017-1344-y. Epub 2017 Jul 3.

PMID:
28674743

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