Julián Mateus1 • Stef de Haan2 Carlos Chuquillanqui2

Slides:



Advertisements
Similar presentations
Phylogenetic Tree A Phylogeny (Phylogenetic tree) or Evolutionary tree represents the evolutionary relationships among a set of organisms or groups of.
Advertisements

CIS786, Lecture 8 Usman Roshan Some of the slides are based upon material by Dennis Livesay and David.
Sigma-aldrich.com/cellsignaling Modular Structure of Transcription Factors.
Sequencing a genome and Basic Sequence Alignment
Phylogeny Estimation: Traditional and Bayesian Approaches Molecular Evolution, 2003
Fig. 12-2, p.187. Fig. 12-5, p.190 Fig. 12-6, p nanometer diameter overall 0.34-nanometer distance between each pair of bases 3.4-nanometer length.
A MOLECULAR APPROACH TO INVESTIGATE TUBERCULOSIS CASES IN A GOTHIC POPULATION FROM GHERĂSENI NECROPOLIS, BUZĂU COUNTY 1 Molecular Biology Center, Interdisciplinary.
Pollen transcript unigene identifier log 2 -fold change Annotation (BLAST) Unigene L. longiflorum chloroplast, complete genome Unigene
Multiple Alignment and Phylogenetic Trees Csc 487/687 Computing for Bioinformatics.
Sequencing a genome and Basic Sequence Alignment
The WRKY superfamily of plant transcription factors.
Introduction to Phylogenetics
Figure S1 Evolutionary relationships of RBG subclasses in Arabidopsis (a) and B. rapa (b). Optimal neighbor-joining trees with sum of branch lengths =
A B C D E F G H I J K FigS1. Supplemental Figure S1. Evolutionary relationships of Arabidopsis and tomato Aux/IAA proteins. The evolutionary history was.
Ayesha M.Khan Spring Phylogenetic Basics 2 One central field in biology is to infer the relation between species. Do they possess a common ancestor?
Figure S1 Figure S1. Effect of SA on spore germination of M. oryae. The data presented were the means (± standard error) of spore germination from three.
Fig. S1a: Conserved motif analysis of Solanaceae DMTases. The motifs (1–10) identified using MEME search tool with default parameters have been marked on.
Yiming Kang, Hien-haw Liow, Ezekiel Maier, & Michael Brent
Introduction to Bioinformatics Resources for DNA Barcoding
Supplementary Fig. 1 Supplementary Figure 1. Distributions of (A) exon and (B) intron lengths in O. sativa and A. thaliana genes. Green bars are used.
Julián Mateus1 • Stef de Haan2 Carlos Chuquillanqui2
WRKY transcription factors in potato genome factors in potato genome
Phylogenetic basis of systematics
From: Phylogenetic Analysis of the ING Family of PHD Finger Proteins
Figure 1. Structure of the fly LGR2 gene and the corresponding cDNA sequence. A, Derivation of the fly LGR2 full-length cDNA from the genomic sequence.
Volume 88, Issue 5, Pages (March 1997)
Carlos Chuquillanqui1 • Ian Barker1
AtIAA18 AtIAA6 AtIAA19 VvIAA19 AtIAA10 AtIAA20 AtIAA7 AtIAA30 AtIAA11
Carlos Chuquillanqui1 • Ian Barker1
Relationship between Genotype and Phenotype
Summary and Recommendations
Evidence and Phylogenetic trees
E. Descloux, C. La Fuentez, Y. Roca, X. De Lamballerie 
Chapter 4 The Interrupted Gene.
Julián Mateus1 • Stef de Haan2 Carlos Chuquillanqui2
Julián Mateus1 • Stef de Haan2 Carlos Chuquillanqui2
WRKY transcription factors in potato genome factors in potato genome
Julián Mateus1 • Stef de Haan2 Carlos Chuquillanqui2
Relationship between Genotype and Phenotype
Volume 6, Issue 3, Pages (May 2013)
L. Dubourg  Clinical Microbiology and Infection 
Volume 6, Issue 5, Pages (September 2013)
Volume 88, Issue 5, Pages (March 1997)
Figure 1: The full-length cDNA and deduced amino acid sequences of Lysozyme C and amino acid sequences from rock bream, Oplegnathus fasciatus. The primers.
AtG3BP1 is a homolog of the human HsG3BP1.
Phylogenetic relationships within the family Astroviridae.
Volume 9, Issue 9, Pages (September 2016)
Marco Gallio†, Per Kylsten†  Current Biology 
High-Throughput Identification and Quantification of Candida Species Using High Resolution Derivative Melt Analysis of Panfungal Amplicons  Tasneem Mandviwala,
Julián Mateus1 • Stef de Haan2 Carlos Chuquillanqui2
Volume 8, Issue 7, Pages (July 2015)
Posttranscriptional Gene Silencing Is Not Compromised in the Arabidopsis CARPEL FACTORY (DICER-LIKE1) Mutant, a Homolog of Dicer-1 from Drosophila  E.Jean.
Alignment IV BLOSUM Matrices
A bacterial antibiotic resistance gene with eukaryotic origins
Julián Mateus1 • Stef de Haan2 Carlos Chuquillanqui2
Prevalence of CXCR4-tropic viruses in clustered transmission chains at the time of primary HIV-1 infection  P. Frange, L. Meyer, J. Ghosn, C. Deveau,
Summary and Recommendations
Phylogenetic analysis and amino acid sequences comparison of HO endonucleases. Phylogenetic analysis and amino acid sequences comparison of HO endonucleases.
Relationship between Genotype and Phenotype
Volume 2, Issue 2, Pages (March 2009)
Novel West Nile virus lineage 1a full genome sequences from human cases of infection in north-eastern Italy, 2011  L. Barzon  Clinical Microbiology and.
Phylogenetic analysis of AquK2P.
Volume 14, Issue 9, Pages (May 2004)
Volume 11, Issue 7, Pages (May 2015)
Molecular phylogenetic analysis of RNA polymerase II largest-subunit protein sequences from various trichomonads, including D. fragilis. Molecular phylogenetic.
A bacterial antibiotic resistance gene with eukaryotic origins
Volume 3, Issue 2, Pages (March 2010)
Volume 97, Issue 6, Pages (June 1999)
Volume 1, Issue 5, Pages (September 2008)
Volume 1, Issue 3, Pages (May 2008)
Presentation transcript:

Julián Mateus1 • Stef de Haan2 Carlos Chuquillanqui2 Ian Barker2 1 Corporación Colombiana de Investigación Agropecuaria (CORPOICA). Centro de Investigación Tibaitatá. • Km 14 vía Bogotá – Mosquera. Colombia 2 International Potato Center (CIP). Germplasm Enhancement and Crop Improvement - Crop Management Division • Av. La Molina 1895. La Molina. Lima 12. Perú Respuesta de tres variedades de papa en un sistema Aeropónico novedoso para la producción Background WRKY proteins are a superfamily of transcription factors involved in various physiologial processes in plants, including pathogen defence. WRKY transciption factors have been shown to act as both negative and positive regulators of defence, suggesting that they may operate through different regulatory complexes. The different roles can be partly determined by the topological features of the proteins. The WRKY domain is defined by the conserved amino acid sequence WRKYGQK at the N-terminal end followed by a zinc-finger-like motif. WRKY proteins are classified based on the number of WRKY domains and the structure of the zinc-finger-like motif. The data presented here is the first step towards unveiling the role of WRKY transcription factors in regulating pathogen defence responses in CIP’s potato germplasm. The evolutionary history was inferred using the Neighbor-Joining method [2]. The bootstrap consensus tree inferred from 1000 replicates [3] is taken to represent the evolutionary history of the taxa analyzed [3]. Branches corresponding to partitions reproduced in less than 50% bootstrap replicates are collapsed. The percentage of replicate trees in which the associated taxa clustered together in the bootstrap test (1000 replicates) are shown next to the branches [3]. The evolutionary distances were computed using the Poisson correction method [4] and are in the units of the number of amino acid substitutions per site. All positions containing gaps and missing data were eliminated from the dataset (Complete deletion option). There were a total of 61 positions in the final dataset. Phylogenetic analyses were conducted in MEGA4 [5]. Sequence alignment of each group with each groups characteristic motifs are shown on the right. Methods WRKY Pfam profile PF03106 consisting of the alignment of 34 WRKY type sequences was used to mine the PGSC DM peptides with HMMER algorithm and 135 sequences were obtained. After alignment the proteins lacking either the WRKY motif or part of the zinc finger motif were removed. WRKY domains (75 amino acids) of 96 proteins were subjected to phylogenetic analysis by MEGA4 and NJ consensus tree was computed (Figure 1). Potential leucine zippers, leucine repeats and coiled coil domains were predicted in full length WRKY proteins using 2ZIP server at http://2zip.molgen.mpg.de/. Potato WRKY protein Phylogeny The groups previously classified in Arabidopsis [1] were identified: Group 1 proteins contain 2 WRKY domains and based on the C-terminal WRKY domain alone do not form a clearly supported group in phylogenetic tree. Part of the group 2b proteins cluster together with group 2a proteins. However, these groups can be differentiated on the N-terminal region of the protein before the WRKY domain. Only group 2a proteins were found to contain a predicted leucine zipper (LZ) whereas some of the group 2b proteins contain a coiled coil (CC) domain. Groups 2d and 2e each form well supported phylogenetic groups. Group 4 is new as compared to Arabidopsis and is clearly distinguished by a a different type of zinc finger motif with the C-X4-C motif typical to Group 2 but with a H-X-C motif typical for group 3. The groups previously classified in Arabidopsis [1] were identified: Group 1 proteins contain 2 WRKY domains and based on the C-terminal WRKY domain alone do not form a clearly supported group in phylogenetic tree. Part of the group 2b proteins cluster together with group 2a proteins. However, these groups can be differentiated on the N-terminal region of the protein before the WRKY domain. Only group 2a proteins were found to contain a predicted leucine zipper (LZ) whereas some of the group 2b proteins contain a coiled coil (CC) Groups 2d and 2e each form well supported phylogenetic groups. Group 4 is new as compared to Arabidopsis and is clearly distinguished by a a different type of zinc finger motif with the C-X4-C motif typical to Group 2 but with a H-X-C motif typical for group 3. Figure 2. Comparison of transcript accumulation in different tissues and in response to abiotic and biotic stimuli. Expression in DM is determined by FPKM (Fragments Per Kilobase of exon per Million fragments mapped) values (PGSC). Transcript profiles For 77 of the WRKY peptides transcripts were detected among the RNA sequence libraries. Most of the transcripts had a low abundancy suggesting low level of expression, but there are also transcripts that accumulate in large amounts in certain tissues or after biotic or abiotic stimuli (Figure 2). For example, the first transcript in Figure 2 has a relatively high expression across all treatments, with the highest expression in biotic stress treated leaves. This transcript corresponds to a WRKY protein from Group 1 that is highly similar (99%) to a double WRKY protein PPS8 of S. tuberosum, which is a candidate substrate for MAPKs that play pivotal roles in induced WRKY transcription factors are part of complex co-regulatory mechanisms and more detailed expression studies are required to identify their role dfence response regulation. Figure 1. Evolutionary relationships of 96 WRKY proteins. supported phylogenetic groups. Group 4 is new as compared to Arabidopsis and is clearly distinguished by a a different type of zinc finger motif with the C-X4-C motif typical to Group 2 but with a H-X-C motif typical for group 3. Groups 2d and 2e each form well supported phylogenetic groups. Group 4 is new as compared to Arabidopsis and is clearly distinguished by a a different type of zinc finger motif supported phylogenetic groups. Group 4 is new as compared to Arabidopsis and is clearly distinguished by a a different type of zinc finger motif with the C-X4-C motif typical to Group 2 but with a H-X-C motif typical to Group 2 but with a H-X-C motif typical for group 3.