Col-0 cat2 pp2a-b'γ sid2 cat2sid2pp2a-b'γnpr1cat2 pp2a-b'γcat2 sid2pp2a-b'γ sid2cat2 nrp1 cat2 npr1 pp2a-b'γ sensCAT2 + revCAT2 sensCAT2 + LB1 sensNPR1.

Slides:

Advertisements

Similar presentations

Suppl. Fig. S1 Suppl. Fig. S1 The nucleotide sequence and its deduced amino acid sequences of CaSAMDC. The full-length of CaSAMDC (GenBank Accession No.

Advertisements

Overexpression of sweetpotato expansin cDNA (IbEXP1) increases seed yield in Arabidopsis Jung Myung Bae 1, *, Man Sup Kwak 1, Seol Ah Noh 1, Mi-Joung Oh.

Supplementary Fig. S1 Determination of T-DNA copy number by Southern blot analysis. Fifteen µg genomic DNA of Bintje and mutant nikku were digested with.

Fig. S1. Amino acid sequence alignment of MYBS3 proteins. MYBS3 protein sequences of Arabidopsis thaliana (MYBH; NP_199550); (At3g16350; NP_188256), Glycine.

AtPAT10 TIP1 Akr1p1 Akr2p Erf2p Swf1p Pfa5 Pfa3 GODZ HIP14 Pfa4 AtPAT10 TIP1 Akr1p1 Akr2p Erf2p Swf1p Pfa5 Pfa3 GODZ HIP14 Pfa4 AtPAT10 TIP1 Akr1p1 Akr2p.

WT pglct-1/mex1 pGlcT rRNA (a) (b) (c) TPT rRNA pglct-1/tpt-2 tpt-2/mex1 WT pGlcT rRNA pglct-1/tpt-2 TPT rRNA WT tpt-2 WT pGlcT rRNA pglct-2 pglct-1 Wild-type.

Supplemental Figure 1. The cell death phenotype of fhy3 far1 double mutants. A. The cell death phenotype of fhy3-4 far1-2 mutant plants under LD conditions.

Supplemental Fig. S1 A B AtMYBS aa AtMYBS

Potassium Transporter KUP7 Is Involved in K+ Acquisition and Translocation in Arabidopsis Root under K+-Limited Conditions Min Han, Wei Wu, Wei-Hua Wu,

Fig. 1 The central rosette leaves of Arabidopsis exhibited a greater degree of freezing tolerance than did peripheral rosette leaves. Eighteen-day-old.

Hypocotyl length (cm) WT bzs1-D bzr1-1D In the Dark Red Light

A jaz decuple mutant (jazD) is highly sensitive to jasmonate and exhibits reduced growth and fertility. A jaz decuple mutant (jazD) is highly sensitive.

Zhu Hui-Fen , Fitzsimmons Karen , Khandelwal Abha , Kranz Robert G.

New Arabidopsis cue Mutants Suggest a Close Connection between Plastid- and Phytochrome Regulation of Nuclear Gene Expression by Enrique López-Juez, R.

Volume 6, Issue 5, Pages (September 2013)

Free Radicals Mediate Systemic Acquired Resistance

Volume 41, Issue 1, Pages e4 (April 2017)

Volume 8, Issue 4, Pages (April 2015)

Leaf Positioning of Arabidopsis in Response to Blue Light

Volume 2, Issue 1, Pages (January 2009)

Volume 7, Issue 5, Pages (May 2014)

Xiaofeng Cao, Steven E. Jacobsen Current Biology

Potassium Transporter KUP7 Is Involved in K+ Acquisition and Translocation in Arabidopsis Root under K+-Limited Conditions Min Han, Wei Wu, Wei-Hua Wu,

A Truncated Arabidopsis NUCLEOSOME ASSEMBLY PROTEIN 1, AtNAP1;3T, Alters Plant Growth Responses to Abscisic Acid and Salt in the Atnap1;3-2 Mutant Liu.

Volume 26, Issue 5, Pages (September 2013)

Volume 93, Issue 7, Pages (June 1998)

Phytochrome A Negatively Regulates the Shade Avoidance Response by Increasing Auxin/Indole Acidic Acid Protein Stability Chuanwei Yang, Famin Xie, Yupei.

Volume 9, Issue 4, Pages (April 2016)

Volume 7, Issue 9, Pages (September 2014)

Liyuan Chen, Anne Bernhardt, JooHyun Lee, Hanjo Hellmann

Leaf Positioning of Arabidopsis in Response to Blue Light

Volume 8, Issue 5, Pages (May 2015)

Volume 17, Issue 1, Pages (July 2009)

Volume 16, Issue 6, Pages (March 2006)

Zhonglin Mou, Weihua Fan, Xinnian Dong Cell

A DTX/MATE-Type Transporter Facilitates Abscisic Acid Efflux and Modulates ABA Sensitivity and Drought Tolerance in Arabidopsis Haiwen Zhang, Huifen.

FLS2 Molecular Cell Volume 5, Issue 6, Pages (June 2000)

Kneissl Julia , Shinomura Tomoko , Furuya Masaki , Bolle Cordelia

Volume 89, Issue 7, Pages (June 1997)

Volume 7, Issue 2, Pages (August 2004)

Volume 5, Issue 3, Pages (May 2012)

Cell cycle-dependent phosphorylation of the translational repressor eIF-4E binding protein-1 (4E-BP1) Kate J. Heesom, Alexandra Gampel, Harry Mellor,

Volume 5, Issue 4, Pages (July 2012)

The Arabidopsis Transcription Factor AtTCP15 Regulates Endoreduplication by Modulating Expression of Key Cell-cycle Genes Li Zi-Yu , Li Bin , Dong Ai-Wu.

IraL affects the levels and stability of σS during log phase growth.

Volume 3, Issue 3, Pages (May 2010)

Volume 3, Issue 3, Pages (March 2013)

Characterization of Keratinocyte Differentiation Induced by Ascorbic Acid: Protein Kinase C Involvement and Vitamin C Homeostasis1 Isabella Savini, Antonello.

Posttranscriptional Gene Silencing Is Not Compromised in the Arabidopsis CARPEL FACTORY (DICER-LIKE1) Mutant, a Homolog of Dicer-1 from Drosophila E.Jean.

Mutants for UVH6 and MED14 are impaired in heat stress–induced release of silencing. Mutants for UVH6 and MED14 are impaired in heat stress–induced release.

Volume 3, Issue 5, Pages (September 2010)

Analysis of GFP expression in gfp loss-of-function mutants.

Volume 1, Issue 2, Pages (January 1998)

HP1 Is Essential for DNA Methylation in Neurospora

Volume 2, Issue 4, Pages (April 2002)

Volume 5, Issue 6, Pages (November 2012)

Chlorophyll concentration (conc

Nucleus-Encoded Light-Harvesting Chlorophyll a/b Proteins are Imported Normally into Chlorophyll b-Free Chloroplasts of Arabidopsis Sabine Nick, Jörg.

Volume 103, Issue 5, Pages (November 2000)

Johannes Mathieu, Norman Warthmann, Frank Küttner, Markus Schmid

Flowering time, biomass, leaf number, and leaf area at flowering of wild-type (WT) and fa plants grown under short- or long-day conditions. Flowering time,

Volume 2, Issue 1, Pages (January 2009)

Volume 6, Issue 3, Pages (May 2013)

Volume 2, Issue 1, Pages (January 2009)

DET1 and COP1 Modulate the Coordination of Growth and Immunity in Response to Key Seasonal Signals in Arabidopsis Sreeramaiah N. Gangappa, S. Vinod Kumar

Volume 121, Issue 4, Pages (May 2005)

Wang Long , Mai Yan-Xia , Zhang Yan-Chun , Luo Qian , Yang Hong-Quan

Valle Ojeda, Juan Manuel Pérez-Ruiz, Francisco Javier Cejudo

Gα12 and Gα13 Interact with Ser/Thr Protein Phosphatase Type 5 and Stimulate Its Phosphatase Activity Yoshiaki Yamaguchi, Hironori Katoh, Kazutoshi Mori,

Volume 11, Issue 7, Pages (July 2018)

Presentation transcript:

Col-0 cat2 pp2a-b'γ sid2 cat2sid2pp2a-b'γnpr1cat2 pp2a-b'γcat2 sid2pp2a-b'γ sid2cat2 nrp1 cat2 npr1 pp2a-b'γ sensCAT2 + revCAT2 sensCAT2 + LB1 sensNPR1 + revNPR1 + Digestion sensPP2A-B'γ + revPP2A-B'γ revPP2A-B'γ + LBa1 sensSID2 + revSID2 + Digestion 1000 bp 750 bp 250 bp 500 bp Fig. S1. Production and genotyping of Arabidopsis mutant lines (cat2 pp2a-b'γ, cat2 pp2a-b'γ sid2, cat2 npr1 pp2a-b'γ). The frame on the right indicates the size of the markers shown on the left lane of the main photograph.

Fig. S2. Ascorbate and glutathione contents in Arabidopsis mutants grown at moderate light in long days. Top, ascorbate. Bottom, glutathione. White blocks, reduced forms. Red blocks, oxidized forms. Numbers above the bars indicate % reduction % Col-0cat2 pp2a-b'  cat2 pp2a-b'  Col-0cat2 pp2a-b'  cat2 pp2a-b'  Leaf content (nmol·g -1 FW) Leaf content (µmol·g -1 FW) %

Fig. S3. Conditional nature of cat2 pp2a-b'  interaction: Arabidopsis plants grown in low light (30 µmol·m -2 s -1 ) in long days do not show oxidative stress or lesions. (a) Photographs of plants. (b) Fresh weight. (c) Glutathione contents. Red blocks, GSSG. White blocks, GSH. Col-0cat2 cat2 pp2a-b'  pp2a-b'  Rosette FW (mg) Leaf glutathione (nmol·g -1 FW) Col-0 cat2 pp2a-b'  cat2 pp2a-b'  (a) (b) (c)

Fig. S4. General increases in free amino acid contents in cat2 pp2a-b'  Arabidopsis lines were grown and sampled in short days. In all frames, the column order is, from left to right: Col-0, cat2, pp2a-b'  cat2 pp2a-b' . Scaling shows relative contents after normalization to internal standard and sample fresh weight. *Significant difference from Col-0 at P<0.05. Primary nitrogen assimilation/remobilization/photorespiration Sulfur-containing amino acids and synthesis pathways Branched-chain amino acids GlutamateGlutamineAspartateAsparagineGlycineSerine Cysteine Arginine MethionineHomoserine IsoleucineLeucineValine Aromatic amino acids and synthesis PhenylalanineTyrosineTryptophan Others LysineGABA  -Alanine O-acetylserine Ornithine Shikimate Threonine * * * * * * * * * * ** * * * * * * * * * * * * *

Fig. S5. Pattern of phosphoproteins in total soluble and membrane fractions isolated from Arabidopsis wild type, cat2, pp2a-b'γ and cat2 pp2a-b'γ leaves grown and sampled in short days. Membrane (upper panels) and soluble (lower panels) fractions of Col-0, pp2a-b’γ, cat2 and cat2 pp2a-b'γ leaves were fractionated by one-dimensional SDSPAGE. Phosphoproteins were detected with ProQ Diamond (left panels), and total proteins were subsequently stained with Sypro Ruby (right panels). Samples corresponding to 80 μg of protein were loaded in each well.

cat2 pp2a-b' γ cat2 Col-0 pp2a-b' γ Number of days Number of leaves Fig. S6. Analysis of flowering time in Arabidopsis Col-0 and mutant lines (a). Number of days at flowering (stem length of 1 cm). (b) Number of leaves at flowering. Data are means of 30 plants growing in long days (16h light/8h dark). * and + indicate difference relative to Col-0 or to cat2 (P<0.05). + * + * + * + *