Page 78

conferenceseries

.com

Volume 6

Journal of Plant Biochemistry & Physiology

ISSN: 2329-9029

Plant Science 2018

October 29-30, 2018

October 29-30, 2018 | Valencia, Spain

6

th

Global Summit on Plant Science

Recent Publications

1. Meng, X., Li, F., Liu, C., Zhang, C., Wu, Z. and Chen, Y. (2010) Isolation and Characterization of an ERF Transcription

Factor Gene fromCotton (

Gossypium barbadense

L.). Plant Mol Biol Rep, 28, 176-183. doi:10.1007/s11105-009-0136-x

2. Guo, W., Jin, L., Miao, Y., He, X., Hu, Q., Guo, K., Zhu, L. and Zhang, X. (2016) An ethylene response-related factor,

GbERF1-like, from

Gossypium barbadense

improves resistance to

Verticillium dahliae

via activating lignin synthesis.

Plant Mol Biol, 91, 305-318. doi:10.1007/s11103-016-0467-6

3. Li, C., He, X., Luo, X., Xu, L., Liu, L., Min, L., Jin, L., Zhu, L. and Zhang, X. (2014) Cotton WRKY1 Mediates the Plant

Defense-to-Development Transition during Infection of Cotton by

Verticillium dahliae

by Activating JASMONATE

ZIM-DOMAIN1 Expression. Plant Physiol, 166, 2179-2194. doi:10.1104/pp.114.246694

4. Cai, Y., Xiaohong, H., Mo, J., Sun, Q., Yang, J. and Liu, J. (2012) Molecular research and genetic engineering of resistance

to

Verticillium

wilt in cotton: A review. African Journal of Biotechnology, 8, 7363-7372.

5. Zhang, Z., Zhao, J., Ding, L., Zou, L., Li, Y., Chen, G. and Zhang, T. (2016) Constitutive expression of a novel

antimicrobial protein, Hcm1, confers resistance to both

Verticillium

and

Fusarium

wilts in cotton. Sci Rep-Uk, 6,

20773. doi:10.1038/srep20773.

Biography

Hanshuang Zhang, professor, female, born in Hebei province. China. She has engaged in cotton breeding for over 20 years, and won the Technological Progress

First Prize Award of Hebei province. Her team has successively presided and finished national or provincial cotton research projects more than 30 items, and

breeding nearly 10 high-yielding, disease-resistant and high-quality cotton varieties, such as Jimian169, JiH 170, Ji178 etc.

hanshuangzhang@126.com

Fig.5.

Expression patterns of GbERFb

in Sea island cotton. A the effect of

exogenous hormones treatments with

ET, MeJA and SA in leaves, B the effect

of exogenous H2O2 and wounding

in leaves, C the effect of inoculating

Verticillium dahliae

in leaves and roots.

Data are averages of three replicates

by mean ±SD

Fig.8.

Response of GbERFb transgenic tobacco plants to

Verticillium

wilt. The tobacco leaves were collected from non-transgenic

tobacco line and three transgenic tobacco lines (L1-L3) of 4 weeks and inoculated with

Verticillium

wilt. The non-transgenic tobacco

line acted as the CK.

Fig.6.

Analysis of the GbERFb transcriptional

activation activity with the GCC sequence by

yeast one hybrid.A: Diagram of the reporters,

effectors construct used in the assays. PCYC1

the promoter of the minimal promoter of the

yeast iso-1-cytochrome C gene, PGAL1 the

promoter of galactose-inducible expression of

gene, CYC1 terminater the terminater of the

Cytochrome transcription gene. B: Comparison

of the transactivation activity of GbERFb and

other control by lifted filter in v yeast cells. 1

pLacZi /pYES3, 2 pLacZi/pYES3-GbERFb,

3p3×mGCC-LacZi/pYES3, 4 p3×mGCC-LacZi/

pYES3-GbERFb, 5 p3×GCC-LacZi/pYES3, 6

p3×GCC-LacZi /pYES3-GbERFb.

Fig.7.

Interaction between the GbERFb and

the candidate protein GbMAPKb by yeast two

hybrid. The competent cell AH109 harbored

the Gal4 DNA-binding domain (BD) and Gal4

activation domain (AD) fusion constructions.

The pGbERFb-GADT7/pGbMAPKb-GBKT7

and other control were selected on SD

medium lacking Leu and Trp (DDO) and

interaction was selected on SD medium

lacking Leu, Trp, His and Ade (QDO) for 5

days. All medium contained the X-a-gal.