Presentation is loading. Please wait.

Presentation is loading. Please wait.

Fig. 2 Functional validation of the TaWAK gene by mutagenesis and transgenesis. Functional validation of the TaWAK gene by mutagenesis and transgenesis.

Published byInge Jayadi Modified over 4 years ago

Similar presentations

Presentation on theme: "Fig. 2 Functional validation of the TaWAK gene by mutagenesis and transgenesis. Functional validation of the TaWAK gene by mutagenesis and transgenesis."— Presentation transcript:

1 Fig. 2 Functional validation of the TaWAK gene by mutagenesis and transgenesis.
Functional validation of the TaWAK gene by mutagenesis and transgenesis. (A) Gene structure of the TaWAK (Snn1) gene with exons in yellow and UTRs in gray. Red arrowheads indicate mutation sites in EMS-induced mutants, all of which were insensitive to SnTox1. PKC, protein kinase C. (B) Infiltration and inoculation reactions on leaves of wild-type CS and the EMS mutant CSems6125 are shown as an example. (C) Reactions to SnTox1 infiltrations of CS (Snn1+), untransformed Bobwhite (BW; Snn1−), and sensitive and insensitive T1 transgenic plants both derived from the same event (BW5240). (D) Transgenic plants that were sensitive to SnTox1 were also susceptible to disease caused by spores of an SnTox1-producing fungal isolate. (E) All SnTox1-sensitive T1 plants derived from event BW5240 had the TaWAK transgene, and all insensitive plants lacked the transgene. (F) Similarly, all SnTox1-sensitive BW5240 T1 plants expressed TaWAK, whereas the insensitive plants did not. Gongjun Shi et al. Sci Adv 2016;2:e Copyright © 2016, The Authors

Download ppt "Fig. 2 Functional validation of the TaWAK gene by mutagenesis and transgenesis. Functional validation of the TaWAK gene by mutagenesis and transgenesis."

Similar presentations

A b Fig. S1 Expression constructs for Cas9 without DsRed gene, and Cas9 mRNA level in pZD_Cas9 transformed calli. a pZH_Cas9 without the DsRed expression.

A b Fig. S1 Expression constructs for Cas9 without DsRed gene, and Cas9 mRNA level in pZD_Cas9 transformed calli. a pZH_Cas9 without the DsRed expression.
Simone Ferrari Lab meeting 12/19/00

Simone Ferrari Lab meeting 12/19/00
CYB561 mutations. CYB561 mutations. The upper part shows the structure of the CYB561 gene, with the positions of the identified mutations indicated. Gray.

CYB561 mutations. CYB561 mutations. The upper part shows the structure of the CYB561 gene, with the positions of the identified mutations indicated. Gray.
CYB561 homology modeling. CYB561 homology modeling.A, Close-up of mutation G88R in CYB561. The protein is shown in ribbon presentation in gray, the heme.

CYB561 homology modeling. CYB561 homology modeling.A, Close-up of mutation G88R in CYB561. The protein is shown in ribbon presentation in gray, the heme.
Volume 9, Issue 5, Pages (May 2016)

Volume 9, Issue 5, Pages (May 2016)
Figure S1. Comparison of synthesized proteins in R. sphaeroides 2. 4

Figure S1. Comparison of synthesized proteins in R. sphaeroides 2. 4
Combined LRTI prediction metric integrating pathogen detection and host gene expression. Combined LRTI prediction metric integrating pathogen detection.

Combined LRTI prediction metric integrating pathogen detection and host gene expression. Combined LRTI prediction metric integrating pathogen detection.
Andrew R. Bassett, Charlotte Tibbit, Chris P. Ponting, Ji-Long Liu 

Andrew R. Bassett, Charlotte Tibbit, Chris P. Ponting, Ji-Long Liu 
Quantitative Disease Resistance: Dissection and Adoption in Maize

Quantitative Disease Resistance: Dissection and Adoption in Maize
FIP200 controls Bak expression via maintaining microRNA1198-5p expression. FIP200 controls Bak expression via maintaining microRNA1198-5p expression. (A)

FIP200 controls Bak expression via maintaining microRNA1198-5p expression. FIP200 controls Bak expression via maintaining microRNA1198-5p expression. (A)
Volume 86, Issue 1, Pages (July 1996)

Volume 86, Issue 1, Pages (July 1996)
Expression analysis of MC and JOINTLESS

Expression analysis of MC and JOINTLESS
Volume 2, Issue 1, Pages (January 2009)

Volume 2, Issue 1, Pages (January 2009)
Volume 8, Issue 8, Pages (August 2015)

Volume 8, Issue 8, Pages (August 2015)
sac mutants are hypersensitive to IR

sac mutants are hypersensitive to IR
Volume 17, Issue 13, Pages (July 2007)

Volume 17, Issue 13, Pages (July 2007)
APOE Gene Targeting (A) Schematic representation of the endogenous APOE locus, the gene targeting vector and the targeted APOE locus. The exons of the.

APOE Gene Targeting (A) Schematic representation of the endogenous APOE locus, the gene targeting vector and the targeted APOE locus. The exons of the.
Fig. 3 Conserved genomic association of PRC1 activity in different leukemic cells. Conserved genomic association of PRC1 activity in different leukemic.

Fig. 3 Conserved genomic association of PRC1 activity in different leukemic cells. Conserved genomic association of PRC1 activity in different leukemic.
Fig. 5 Correlation of RNA expression and protein abundance.

Fig. 5 Correlation of RNA expression and protein abundance.
Fig. 5 In vivo MIP imaging of lipid and protein in C. elegans.

Fig. 5 In vivo MIP imaging of lipid and protein in C. elegans.

Similar presentations

Ads by Google