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Genetic and Genomic Resources in Maize Georgia Davis Asst. Professor Div. Plant Sciences [email protected] Overview Genetic map Anchoring via Molecular Markers Physical map What is Genomics? Genomics science that combines genetics, high through-put robotics and bioinformatics to derive large amounts of high quality biological information that will allow a greater understanding of the organism being studied. Structural Genomics Science related to discovery of gene order and organization on a chromosome. Genetic mapping Physical mapping In situ hybridization Functional Genomics Science related to the discovery and definition of the function of genes C16 C18 C20 C22 C24 Aldehydes C26 Alcohols Wax Esters Whole plant Cellular Biochemical RNA The Maize Genome in Perspective Maize Human Soybean Sorghum Tomato Rice Bacteria 2500 2500 1500 900 950 450 5 MB MB MB MB MB MB MB How maize compares to other species in size Human Soybean Sorghum Tomato Rice Bacteria equal 1.7X 2.7X 2.6X 5.5X 500X Maize Genetic Resources al1 d10 gl2 zb7 kn1 Maize Genetic Resources mn1 b1 pl1 vp1 te1 tu1 orp1 a1 su1 y1 pr1 sh1 wx1 Maize Genetic Resources 1685 mutants with images in MDB >5000 mutants available >10,000 alleles in MDB www.maizegdb.org Maize Genetic Resources 49 QTL experiments in MDB 59 genetic maps in MDB 7850 mapped loci in MDB Mapping Maize at UMC Genetic mapping is based on DNA fingerprint data of offspring from two parents which differ in their appearance. Similar fingerprint data for two gene indicates they are physically close together on a chromosome. Physical mapping is a laboratory based approach and involves identifying small overlapping DNA fragment to reconstruct whole maize chromosomes. Molecular mapping Digest DNA Electrophorese Hybridize with probe Southern blot + Scoring data A B H H A B A H Recombination and Mapping Assume that the frequency of crossing-over is equal along the chromosome. Two genes that are very close to one another will have a lower likelihood of having a cross-over between them than two genes that are very far apart. Recombination and Mapping So, we can determine the relative distance between genes by counting the number of recombinant genotypes for each pair of genes. Lots of recombinants = far apart Few recombinants = close together How Maximum Likelihood Works BHBBAHBHHBHHBHB HHBBABBHHBBBBAB BHBBABHAHHBHBAB BHBBABBAHHBHBAB BHBBHBHAHHBHBAB umc157 umc76 asg45 zb4 csu3 BHBBAHBHHBHHBHB BHBBABHAHHBHBAB HHBBABBHHBBBBAB BHBBABBAHHBHBAB BHBBHBHAHHBHBAB umc157 asg45 umc76 zb4 csu3 ESTs Defined EST is an acronym for Expressed Sequenced Tags. cDNAs with map locations. ESTs represent the genes active in a particular tissue at specific stage of development. The cellular function of an EST can often be derived by comparison to sequence databases. EST Mapping: Utility ESTs are important markers for physical mapping. EST mapping, coupled with trait mapping, will help link genes to phenotypes. ESTs are the basic building blocks for high density “gene chips” Efficient Markers for Maize Simple Sequence Repeats(SSRs) Develop SSR markers Map SSRs genetically Use SSRs to anchor physical map to genetic map Use SSRs to map QTLs more efficiently SSRs: What and how? Dinucleotide and trinucleotide repeats. ex. CACACACACA Different corn lines have different numbers of repeats. (CA)10, (CA)14 These differences can be seen on a high resolution agarose gel. Can be used for mapping. SSR Mapping C A T G Trait Mapping Links phenotypes to genetic locations Precursor to linking phenotypes to genes Provides tools for functional analysis of gene expression Aspergillus flavus Infection via silk channel wounds in kernels cracks in kernels Aflatoxin Aflatoxin B1 Potent carcinogen. Associated with liver cancer in humans. Molecular mapping Gene 1 Lo Va35 Mp313E DNA fingerprint Hi 1 2 3 Int. Hi Lo 4 5 Int. Lo 6 Int. Gene 2 Lo Hi Int. Hi Lo Int. Lo Int. Compare the DNA fingerprint with grain toxin levels Look for bands on fingerprint associated with high toxin and those associated with low toxin Mapping Maize at UMC Genetic mapping is based on DNA fingerprint data of offspring from two parents which differ in their appearance. Similar fingerprint data for two gene indicates they are physically close together on a chromosome. Physical mapping is a laboratory based approach and involves identifying small overlapping DNA fragment to reconstruct whole maize chromosomes. Mapping Maize at UMC Physical Mapping Large fragments are cloned into Bacterial Artificial Chromosomes (BACs). DNA fragments can easily be retrieved for gene hunting experiments. A complete physical map is needed before DNA sequencing of the chromosomes can begin. Maize HindIII BAC library Made at CUGI Average insert size is 135 kb. Total coverage is 14X. Fingerprinting and anchoring of 5X underway. Physical Map Constructed in the laboratory by assembling overlapping DNA fragments. Each fragment can be easily retrieved for experiments which can localize genes of interest. DNA fragments cloned into Bacterial Artificial Chromosomes (BACs) Chromosome 1 Integrating the Genetic and Physical Maps to Form a Single Map Molecular markers serve as anchor points for the two maps since they can be mapped both genetically and physically Types of Molecular Markers RFLPs Simple Sequence Repeats (SSRs) Expressed Sequence Tags (ESTs) Markers from other species Maize Physical Mapping Whole-genome characterization of HindIII in progress. Anchor with AFLPs and low copy RFLPs Considerations: Repetitive elements Syntenic duplicated regions B73 Maize BAC library probed by asg20 single copy clone Maize Physical Mapping CentA-LTR sequence bnl6.16 - Single copy RFLP Integrated Genetic and Physical Map Genetic Physical Plant Height Disease Resistance Kernel Color Tassel Branching Drought Resistance Unknown Function (EST) Chromosome 1 Synteny in Crop Plants The order of genes along chromosomes is conserved in many crop plants. Maize-Sorghum-Rice Tomato-Pepper-Potato This is known as synteny and occurs in animals as well. Mouse-Rat-Humans The Missouri Maize Project is working to characterize maize-sorghum synteny. Maize Synteny With Close Relatives The Missouri Maize Project is working to characterize maize-sorghum-rice synteny. This will allow desirable plant traits to be transferred across species. Maize Sorghum Rice Informatics Tasks What good is the data if you can’t access it? Project data curation Community curation via MaizeDB Dissemination from MaizeDB Project Data Curation Excel Spreadsheets Scripts LabDB Scripts MaizeDB What do we use the tools for? Identifying genes for important agronomic traits. Insect resistance Disease resistance Drought tolerance Cold/heat tolerance Grain quality