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10/22/2013 Genetics: from Mendel and mutations to solutions to the Valley Alejandro Calderón-Urrea, M.Sc., Ph.D., Chair Department of Biology California State University, Fresno California State University, Fresno – Department of Biology I. II. The roots of genetics in pre-WWI science Mendel who? a. b. III. IV. Laws, laws, laws… From Mendel to molecular genetics Mutations and diversity How can we help? a. b. c. Genetic transformation of Dunaliella primolecta: Improve natural capacity of algae Diagnostics for all… Death to nematodes California State University, Fresno – Department of Biology 1 10/22/2013 Fold the clicker =A =E =B =C =D California State University, Fresno – Department of Biology Fold the clicker =A =E =B =C =D California State University, Fresno – Department of Biology = I have no idea what you are talking about 2 10/22/2013 I. II. The roots of genetics in pre-WWI science Mendel who? a. b. III. IV. Laws, laws, laws… From Mendel to molecular genetics Mutations and diversity How can we help? a. b. c. Genetic transformation of Dunaliella primolecta: Improve natural capacity of algae Diagnostics for all… Death to nematodes California State University, Fresno – Department of Biology Why do children have characteristics from parents and grandparents? Homunculus, gemmule, pangenesis, and the Preformation hypothesis California State University, Fresno – Department of Biology 3 10/22/2013 Q Today, thanks to the Preformation hypothesis, we know that everything in the embryo is preformed: it simply gets bigger. A) True B) False California State University, Fresno – Department of Biology How traits are transferred from parents to offspring? The “blending” hypothesis is the idea that genetic material from the two parents blends together (like blue and yellow paint blend to make green) The “particulate” hypothesis is the idea that parents pass on discrete heritable units (traits or genes) California State University, Fresno – Department of Biology 4 10/22/2013 I. II. The roots of genetics in pre-WWI science Mendel who? a. b. III. IV. Laws, laws, laws… From Mendel to molecular genetics Mutations and diversity How can we help? a. b. c. Genetic transformation of Dunaliella primolecta: Improve natural capacity of algae Diagnostics for all… Death to nematodes California State University, Fresno – Department of Biology California State University, Fresno – Department of Biology 5 10/22/2013 So, what do you know about genetics? California State University, Fresno – Department of Biology Q If a sexually reproducing organism has two sets of chromosomes (one from the mother and one from the father), this organism is said to be: A) Homozygous B) Heterozygous C) Haploid D) Diploid E) Polyploid California State University, Fresno – Department of Biology 6 10/22/2013 Q If a sexually reproducing organism has two sets of chromosomes (one from the mother and one from the father), this organism is said to be: A) Homozygous B) Heterozygous C) Haploid D) Diploid E) Polyploid California State University, Fresno – Department of Biology Q One of the alternative forms of a gene is called: A) Allele B) Phenotype C) Genotype D) Locus (plural loci) E) Levi’s 505 California State University, Fresno – Department of Biology 7 10/22/2013 Q One of the alternative forms of a gene is called: A) Allele B) Phenotype C) Genotype D) Locus (plural loci) E) Levi’s 505 California State University, Fresno – Department of Biology Cells and heredity through DNA Sperm cell Nuclei containing DNA Egg cell Fertilized egg with DNA from both parents Embryo’s cells with copies of inherited DNA Offspring with traits inherited from both parents Cells contain chromosomes made partly of DNA (the substance of genes) which program a cells’ production of proteins and transmit information from parent to offspring California State University, Fresno – Department of Biology 8 10/22/2013 Mendel used the scientific approach to identify two laws of inheritance 1) The Law of Segregation 2) The Law of Independent Assortment California State University, Fresno – Department of Biology “The Scientific Method” 1) Observation 2) Hypothesis 3) Prediction 4) Testing California State University, Fresno – Department of Biology 9 10/22/2013 Allele (trait) for purple flowers Allele (trait) for white flowers Locus for flower-color gene (character) Allele (trait) for yellow seeds Allele (trait) for green seeds Locus for seed-color gene (character) Homologous pair of chromosomes Homologous pair of chromosomes California State University, Fresno – Department of Biology 1) The Law of Segregation Allele (trait) for purple flowers Allele (trait) for white flowers Locus for flower-color gene (character) Allele (trait) for yellow seeds Homologous pair of chromosomes Allele (trait) for green seeds Locus for seed-color gene (character) Homologous pair of chromosomes Law of segregation (alleles): The two alleles for a heritable character separate (segregate) during gamete formation and end up in different gametes. California State University, Fresno – Department of Biology 10 10/22/2013 2) The Law of Independent Assortment Allele (trait) for purple flowers Allele (trait) for white flowers Locus for flower-color gene (character) Allele (trait) for yellow seeds Allele (trait) for green seeds Locus for seed-color gene (character) Homologous pair of chromosomes Homologous pair of chromosomes The law of independent assortment (genes): Each pair of alleles segregates independently of each other pair of alleles during gamete formation California State University, Fresno – Department of Biology TECHNIQUE 1 Mendel’s Experimental, Quantitative Approach • Advantages of pea plants for genetic study: – Characters (such as flower color) – Traits (such as purple or white flowers) – Mating of plants can be controlled – Each pea plant has sperm-producing organs (stamens) and egg-producing organs (carpels) – Cross-pollination (fertilization between different plants) can be achieved by dusting one plant with pollen from another California State University, Fresno – Department of Biology 2 Parental generation (P) Stamens Carpel 3 4 RESULTS First filial generation offspring (F1) 5 11 10/22/2013 • Mendel chose to track only those characters that varied in an either-or manner • He also used varieties that were true-breeding (plants that produce offspring of the same variety when they selfpollinate) • In a typical experiment, Mendel mated two contrasting, truebreeding varieties, a process called hybridization • The true-breeding parents are the P generation • The hybrid offspring of the P generation are called the F1 generation • When F1 individuals self-pollinate, the F2 generation is produced California State University, Fresno – Department of Biology EXPERIMENT P Generation (true-breeding parents) The Law of Segregation • When Mendel crossed contrasting, true-breeding white and purple flowered pea plants, all of the F1 hybrids were purple • When Mendel crossed the F1 hybrids, many of the F2 plants had purple flowers, but some had white • Mendel discovered a ratio of about three to one, purple to white flowers, in the F2 generation California State University, Fresno – Department of Biology Purple flowers White flowers F1 Generation (hybrids) All plants had purple flowers F2 Generation 705 purple-flowered plants 224 white-flowered plants 12 10/22/2013 • Mendel reasoned that only the purple flower factor was affecting flower color in the F1 hybrids • Mendel called the purple flower color a dominant trait and the white flower color a recessive trait • Mendel observed the same pattern of inheritance in six other pea plant characters, each represented by two traits • What Mendel called a “heritable factor” is what we now call a gene California State University, Fresno – Department of Biology So, how did Mendel explained these amazing results? California State University, Fresno – Department of Biology 13 10/22/2013 P Generation 1= alternative versions of genes account for 1 variations in inherited Appearance: Purple flowers White flowers characters Genetic makeup: PP pp 2= for each character an Gametes: p P organism inherits two • Mendel’s segregation alleles (traits), one from model accounts for the 3:1 2 each parent ratio he observed in the F2 two alleles (traits) generation of his numerous 3=atifathe locus differ, then one F1 Generation 3 crosses (the dominant allele or trait) determines the • The possible combinations organism’s appearance, Appearance: Purple flowers of sperm and egg can be and the other (the Genetic makeup: Pp recessive allele or trait) shown using a Punnett 1/ has no noticeable effect Gametes: 4 1/2 p P 2 square, a diagram for on appearance predicting the results of a Sperm genetic cross between 4= law of segregation: the p P individuals of known genetic two alleles for a heritable F2 Generation character separate makeup (segregate) during gamete P • A capital letter represents a formation and end up in PP Pp different gametes dominant allele, and a Eggs lowercase letter represents p a recessive allele pp Pp 3 1 California State University, Fresno – Department of Biology The Law of Independent Assortment • Mendel identified his second law of inheritance (the law of independent assortment) by following two characters at the same time • Crossing two true-breeding parents differing in two characters produces dihybrids in the F1 generation, heterozygous for both characters • A dihybrid cross, a cross between F1 dihybrids, can determine whether two characters are transmitted to offspring as a package or independently California State University, Fresno – Department of Biology 14 10/22/2013 Law of segregation: The two alleles for a single heritable character separate (segregate) during gamete formation and end up in different gametes. Do pairs of alleles of two loci separate (segregate) independently during gamete production? Is it this: Y R or this: Y R Y R Y R Experiment to test if dependent vs. independent assortment: EXPERIMENT YYRR P Generation yyrr Gametes YR yr F1 Generation Predictions YyRr Hypothesis of dependent assortment Hypothesis of independent assortment Sperm or 1/ Sperm Predicted gametes produced by F1 generation 1/ 2 1/ YR 2 YR 4 1/ 4 Yr 1/ 4 yR 1/ 4 yr yr California State University, Fresno – Department of Biology EXPERIMENT YyRr F1 Generation Hypothesis of dependent assortment Predictions Hypothesis of independent assortment Sperm or Predicted offspring of F2 generation 1/ Sperm 1/ 2 YR 1/ 2 2 YyRr Eggs 2 1/ 4 1/ Yr 4 yR 1/ 4 yr 4 YR YYRR YYRr YyRR YyRr YYRr YYrr YyRr Yyrr YyRR YyRr yyRR yyRr YyRr Yyrr YR YYRR 1/ YR yr 1/ 1/ 4 1/ 4 Yr 4 yR Eggs yr YyRr 3/ yyrr 1/ 4 1/ 4 Phenotypic ratio 3:1 1/ yr 4 9/ 16 3/ 16 yyRr 3/ 16 yyrr 1/ 16 Phenotypic ratio 9:3:3:1 RESULTS 315 108 101 32 Phenotypic ratio approximately 9:3:3:1 California State University, Fresno – Department of Biology 15 10/22/2013 EXPERIMENT YyRr F1 Generation Hypothesis of dependent assortment Predictions Hypothesis of independent assortment Sperm or Predicted offspring of F2 generation 1/ Sperm 1/ 2 YR 1/ 2 2 YyRr YYRR 2 1/ 4 1/ Yr 4 yR 1/ 4 yr 4 YR YYRR YYRr YyRR YyRr YYRr YYrr YyRr Yyrr YyRR YyRr yyRR yyRr YyRr Yyrr YR 1/ Eggs 1/ YR yr 1/ 1/ 4 4 Yr 4 yR Eggs yr YyRr 3/ yyrr 1/ 4 1/ 4 Phenotypic ratio 3:1 1/ yr 4 9/ 16 3/ 16 yyRr 3/ 16 yyrr 1/ 16 Phenotypic ratio 9:3:3:1 RESULTS 315 108 101 32 Phenotypic ratio approximately 9:3:3:1 California State University, Fresno – Department of Biology 1) The Law of Segregation Allele (trait) for purple flowers Allele (trait) for white flowers Locus for flower-color gene (character) Allele (trait) for yellow seeds Homologous pair of chromosomes Allele (trait) for green seeds Locus for seed-color gene (character) Homologous pair of chromosomes Law of segregation (alleles): The two alleles for a heritable character separate (segregate) during gamete formation and end up in different gametes. California State University, Fresno – Department of Biology 16 10/22/2013 2) The Law of Independent Assortment Allele (trait) for white flowers Allele (trait) for purple flowers Locus for flower-color gene (character) Allele (trait) for yellow seeds Homologous pair of chromosomes Allele (trait) for green seeds Locus for seed-color gene (character) Homologous pair of chromosomes The law of independent assortment (genes): Each pair of alleles segregates independently of each other pair of alleles during gamete formation California State University, Fresno – Department of Biology I. II. The roots of genetics in pre-WWI science Mendel who? a. b. III. IV. Laws, laws, laws… From Mendel to molecular genetics Mutations and diversity How can we help? a. b. c. Genetic transformation of Dunaliella primolecta: Improve natural capacity of algae Diagnostics for all… Death to nematodes California State University, Fresno – Department of Biology 17 10/22/2013 Q What are major types of macro-molecules found in living organisms? A) DNA B) Proteins C) Carbohydrates D) Lipids E) All of the above California State University, Fresno – Department of Biology A C Nucleotide The genetic material: Mendel’s traits are in the DNA! Nucleus DNA T T A R A R A T C T A C G A R T Cell Genome: The entire library of genetic instructions that an organism inherits The Human Genome: 3 billion nucleotides (about 25,000 genes), 75,000 kinds of proteins T A G T A (a) DNA double helix T G A T A T G G C A T C A T (b) Single strand of DNA California State University, Fresno – Department of Biology 18 10/22/2013 The Basic Principle: Base Pairing to a Template Strand • • Since the two strands of DNA are complementary, each strand acts as a template for building a new strand in replication In DNA replication, the parent molecule unwinds, and two new daughter strands are built based on base-pairing rules A T A T A T A T C G C G C G C G T A T A T A T A A T A T A T A T G C G C G C G C (a) Parent molecule (b) Separation of strands (c) “Daughter” DNA molecules, each consisting of one parental strand and one new strand California State University, Fresno – Department of Biology Fig. 16-21a Nucleosome (10 nm in diameter) DNA double helix (2 nm in diameter) H1 Histones DNA, the double helix Histones Histone tail Nucleosomes, or “beads on a string” (10-nm fiber) Nucleosome: octamer of histone proteins (2X each of H2A, H2B, H3, H4) California State University, Fresno – Department of Biology 19 10/22/2013 Chromatid (700 nm) 30-nm fiber Loops Scaffold 300-nm fiber 30-nm fiber Looped domains (300-nm fiber) California State University, Fresno – Department of Biology Replicated chromosome (1,400 nm) Metaphase chromosome The Products of Gene Expression: A Developing Story • Some proteins aren’t enzymes, so researchers later revised the hypothesis: one gene–one protein • Many proteins are composed of several polypeptides, each of which has its own gene • Therefore, Beadle and Tatum’s hypothesis is now restated as the one gene–one polypeptide hypothesis • Note that it is common to refer to gene products as proteins rather than polypeptides • A gene can be defined as a region of DNA that can be expressed to produce a final functional product, either a polypeptide or an RNA molecule. California State University, Fresno – Department of Biology 20 10/22/2013 DNA TRANSCRIPTION • • • • • In prokaryotes, mRNA produced by transcription is immediately translated without more processing In a eukaryotic cell, the nuclear envelope separates transcription from translation Eukaryotic RNA transcripts are modified through RNA processing to yield finished mRNA A primary transcript is the initial RNA transcript from any gene The central dogma is the concept that cells are governed by a cellular chain of command: DNA → RNA → protein mRNA Ribosome TRANSLATION Polypeptide (a) Bacterial cell Nuclear envelope DNA TRANSCRIPTION Pre-mRNA RNA PROCESSING mRNA TRANSLATION Ribosome Polypeptide California State University, Fresno – Department of Biology (b) Eukaryotic cell Genomics: Large-Scale Analysis of DNA Sequences • An organism’s genome is its entire set of genetic instructions - Genomics is the study of sets of genes within and between species • The human genome and those of many other organisms have been sequenced using DNA-sequencing machines. Genomics requires – “High-throughput” technology, which yields enormous amounts of data – Bioinformatics, which is the use of computational tools to process a large volume of data – Interdisciplinary research teams California State University, Fresno – Department of Biology 21 10/22/2013 Evolution of the Genetic Code • The genetic code is nearly universal, shared by the simplest bacteria to the most complex animals • Genes can be transcribed and translated after being transplanted from one species to another (a) Tobacco plant expressing a firefly gene (b) Pig expressing a jellyfish gene California State University, Fresno – Department of Biology I. II. The roots of genetics in pre-WWI science Mendel who? a. b. III. IV. Laws, laws, laws… From Mendel to molecular genetics Mutations and diversity How can we help? a. b. c. Genetic transformation of Dunaliella primolecta: Improve natural capacity of algae Diagnostics for all… Death to nematodes California State University, Fresno – Department of Biology 22 10/22/2013 Mutations are changes in the genetic material of a cell or virus Point mutations Deletions Insertions California State University, Fresno – Department of Biology Point mutations can affect protein structure and function • • Point mutations are chemical changes in just one base pair of a gene The change of a single nucleotide in a DNA template strand can lead to the production of an abnormal protein 3′′ 5′′ Wild-type hemoglobin DNA C T T G A A 5′′ 3′′ 3′′ 5′′ mRNA 5′′ Mutant hemoglobin DNA C A T G T A 5′′ 3′′ mRNA G A A Normal hemoglobin Glu 3′′ 5′′ G U A 3′′ Sickle-cell hemoglobin Val California State University, Fresno – Department of Biology 23 10/22/2013 Insertions and Deletions •Insertions and deletions are additions or losses of nucleotide pairs (or larger sequences) in a gene •These mutations have a disastrous effect on the resulting protein more often than substitutions do California State University, Fresno – Department of Biology Mutagens • Spontaneous mutations can occur during DNA replication, recombination, or repair • Mutagens are physical or chemical agents that can cause mutations California State University, Fresno – Department of Biology 24 10/22/2013 I. II. The roots of genetics in pre-WWI science Mendel who? a. b. III. IV. Laws, laws, laws… From Mendel to molecular genetics Mutations and diversity How can we help? a. b. c. Genetic transformation of Dunaliella primolecta: Improve natural capacity of algae Diagnostics for all… Death to nematodes California State University, Fresno – Department of Biology Research on the microalgae Dunaliella primolecta at Fresno State California State University, Fresno – Department of Biology 25 10/22/2013 Algae and their uses Algae are a diverse, polyphyletic assemblage of photosynthetic eukaryotes unified primarily by their lack of roots, leaves, and the other organs that characterize higher plants. Algae include macroalgae and microalgae Microalgae, a large and diverse group of unicellular photoand heterotrophic organisms California State University, Fresno – Department of Biology EUKARYA Dinoflagellates Forams Ciliates Diatoms Red algae Land plants Green algae Amoebas Cellular slime molds Euglena Trypanosomes Leishmania Animals Fungi Sulfolobus Green nonsulfur bacteria Thermophiles Halophiles (Mitochondrion) COMMON ANCESTOR OF ALL LIFE Methanobacterium ARCHAEA Spirochetes Chlamydia Green sulfur bacteria BACTERIA Cyanobacteria (Plastids, including chloroplasts) California State University, Fresno – Department of Biology 26 10/22/2013 Green microalgae: β-carotene, Biofuels, Polyunsaturated fatty acids (PUFA) , Anticancer drugs Diatomes (silica based cell wall-frustule): feeds in aquaculture, nanotechnology, major contributors to CO2 fixation and O2 production in oceans. From: Parker et al., Annu. Rev. Genet. 2008. 42: 619–45 California State University, Fresno – Department of Biology What do microalgae need? Water Sunlight CO2 Or other C source Nitrogen Phosphorous What do they produce? β-carotene Polyunsaturated fatty acids (PUFA) Biofuels Therapeutic proteins Anticancer drugs Astaxanthin California State University, Fresno – Department of Biology 27 10/22/2013 Oil content of some microalgae Production cost of biodisel from algae: $2.80/liter (2006) Production cost of petrodiesel: $0.49/liter (2006) How to reduce production cost? Improving large scale production Biodiesel production through Transesterification Couple production to cleanup Improve natural capacity of algae California State University, Fresno – Department of Biology From: Y. Chisti. Biotechnology Advances. 2007. 25: 294–306 Oil content of some microalgae Production cost of biodisel from algae: $2.80/liter (2006) Production cost of petrodiesel: $0.49/liter (2006) How to reduce production cost? Improving large scale production Biodiesel production through Transesterification Couple production to cleanup Improve natural capacity of algae California State University, Fresno – Department of Biology From: Y. Chisti. Biotechnology Advances. 2007. 25: 294–306 28 10/22/2013 A B C D 1 Developmental profile of D. primolecta from younger cells (1) through older cells (5). The various panels (A though D) show cells visualized with Nomarski microscopy (A), chlorophyll autofluorescence (B), lipid accumulation as visualized by BODIPY staining (C), and overlay of Nomarski, chlorophyll, and lipid images (D). 2 3 4 5 California State University, Fresno – Department of Biology Genetic transformation of Dunaliella primolecta: Use genetic markers to test transformation 35S poly HygR 35S pro LB Lac Z 35S pro pCAMBIA1301 GUS np RB Use Agrobacterium tumefaciens Plate on MSS medium 10 mL106 cells/mL (Dp cells) Wash Dp cells and plate on selection medium ON culture A. tumefaciens 3 days MSS medium 48 hours MSS medium Isolate transgenic lines MSS medium+ cefotaxime+ hygromycin Cell colonies appear in 10-20 days California State University, Fresno – Department of Biology MSS medium+ cefotaxime+ hygromycin 29 10/22/2013 Features of our transformation protocol: • No inducer molecule, such as acetosyringone, was used for the transfer of genes from Agrobacterium to the algae cells • We observed high efficiency of transformation, as compared with other methods • Although we consistently obtained an average of 1500 Hygr transformed algae cells (concentration of 100 mgL-1), 96 were selected and develop into cell lines to study their transgenic status. California State University, Fresno – Department of Biology Questions: • Are the inserted genes stable? • Do the genes insert in multiple sites in the genome? • Can this transformation protocol be used as an “insertional mutagenesis” protocol? California State University, Fresno – Department of Biology 30 10/22/2013 Are the inserted genes stable? PCR amplification of GUS gene in selected HygR lines. The expected 450 bp fragment is amplified in all lines. C+ is the pCAMBIA1301 vector and C- is untransformed DNA. MM G1 G2 G3 G4 G5 G6 G7 G8 G9 G10 G11 G12 C+ C- 1.0KB 0.45KB California State University, Fresno – Department of Biology Do the genes insert in multiple sites in the genome? GUS expression of selected transformed lines. Cell lines farther away from the “Y” axis (circled) are cell lines expressing GUS at high levels. 3500000 Number of cells/ml 3000000 Control 2500000 Row A Row B 2000000 Row C 1500000 Row D 1000000 Row E Row F 500000 Row G 0 Row H 0 50 100 150 200 250 300 350 RFU California State University, Fresno – Department of Biology 31 10/22/2013 Can this transformation protocol be used as an “insertional mutagenesis” protocol? California State University, Fresno – Department of Biology Can this transformation protocol be used as an “insertional mutagenesis” protocol? ( ) gene A ( ) gene B ( ) gene C ( ) gene D ( ) gene E etc. California State University, Fresno – Department of Biology 32 10/22/2013 Can this transformation protocol be used as an “insertional mutagenesis” protocol? ( ) gene A ( ) gene B ( ) gene C ( ) gene D ( ) gene E etc. What if one of this genes controls lipid biosynthesis? A mutation will have increased lipid content… California State University, Fresno – Department of Biology Can this transformation protocol be used as an “insertional mutagenesis” protocol? ( ) gene A ( ) gene B ( ) gene C ( ) gene D ( ) gene E etc. What if one of this genes is involved in lipid biosynthesis? A mutation will have lower lipid content… California State University, Fresno – Department of Biology 33 10/22/2013 Neutral lipid content measured by BODIPY fluorescence as it binds to lipids. Cell lines with RFU values below the control line are cell lines with high levels of lipid content. Conversely cell lines with RFU values above the control line are cell lines with low levels of lipid content. 3500000 A5 Number of cells/ml 3000000 A8 2500000 2000000 B5 1500000 B7 1000000 500000 B12 0 0 5000 10000 15000 20000 25000 30000 35000 40000 45000 50000 F7 RFU California State University, Fresno – Department of Biology Comparison of lipids and concentration between untransformed and transformed D. primolecta lines. Lines A5, B5, F7, and H5 have lower lipid content compared to untransformed; Lines A8, B7, and B12 cells lines have higher lipid content compared to untransformed lines. Amount of lipid in ng 600 500 DPI 400 DPII F7 300 H5 200 B5 A5 100 B12 0 B7 A8 LIPIDS California State University, Fresno – Department of Biology 34 10/22/2013 Conclusions: Agrobacterium–mediated transformation of D. primolecta is simple and reproducible. PCR amplification of the GUS gene and activity of β-glucuronidase confirmed the transgenic status of the HygR lines generated. BODIPY assay showed that the lipid content in the transformed cell lines varied; this may indicate that the introduced genes are integrated at random positions in the genome of D. primolecta. California State University, Fresno – Department of Biology Acknowledgements: Preethi Sarvabhowman Alex Guzzetta Sabrina Romero Rakesh Kumar Raj Patidar Funding for the research: CSM trough various programs provided funds for the research in A. C-U.’s Lab Materials provided: UTEX and Wawona Frozen Foods, Clovis, CA California State University, Fresno – Department of Biology 35 10/22/2013 I. II. The roots of genetics in pre-WWI science Mendel who? a. b. III. IV. Laws, laws, laws… From Mendel to molecular genetics Mutations and diversity How can we help? a. b. c. Genetic transformation of Dunalliela primolecta: Improve natural capacity of algae Diagnostics for all… Death to nematodes California State University, Fresno – Department of Biology Q I learned something new from this presentation: A) Yes B) No California State University, Fresno – Department of Biology 36 10/22/2013 Thank you Alejandro Calderón-Urrea, M.Sc., Ph.D. Department of Biology California State University, Fresno California State University, Fresno – Department of Biology 10 / 21 / 2013 37
