Mitochondrial DNA in Molecular Systematics. -organelle found in eukaryotic cells -cellular respiration – ATP production Mitochondria.

Slides:

Advertisements

Similar presentations

Tracing Evolutionary History

Advertisements

Genes: organization, function and evolution

Nuclear DNA and Mitochondrial DNA. Nuclear DNA Present in almost every cell Combination from both parents; 23 chromosomes from each parent.

PLANT MITOCHONDRIAL BIOLOGY A. Structure 1.outer membrane 2.inner membrane 3.intermembrane space 4.Matrix.

Mitochondrial Genome Evolution Level 3 Molecular Evolution and Bioinformatics Jim Provan.

The Chromosomes of Organelles Outside the Nucleus Exhibit Non- Mendelian Patterns of Inheritance.

Molecular biology of mitochondria Mitochondria are the main site of ATP synthesis in eukaryote cells and as such are vital for the health and survival.

Dr. Madhumita Bhattacharjee Assiatant Professor Botany Deptt.

Description Mitochondria are oval shaped organelles scattered randomly throughout the cytoplasm. They are the energy factories of the cell and produce.

Organelle genomes Small but essential genomes Multiple organelles per cell; multiple genomes per organelle (20 – 20,000 genomes per cell, depending on.

Eukaryotes and Prokaryotes Key Differences in Protein Synthesis.

Chapter 5: History of Life on Earth. Dates of origins 1. Everything (Universe):14 Bya 2. Solar System (Earth):4.6 Bya Conservative estimates 3. Prokaryotic.

Phylogenetic Trees Systematics, the scientific study of the diversity of organisms, reveals the evolutionary relationships between organisms. Taxonomy,

Classification of Living Things. 2 Taxonomy: Distinguishing Species Distinguishing species on the basis of structure can be difficult  Members of the.

Unit 1: DNA and the Genome Key area 8: Genomic sequencing.

Review of cladistic technique Shared derived (apomorphic) traits are useful in understanding evolutionary relationships Shared primitive (plesiomorphic)

1 Mitochondrial Genomic Rearrangements in Songbirds.

CHAPTER 15 Microbial Genomics Genomic Cloning Techniques Vectors for Genomic Cloning and Sequencing MS2, RNA virus nt sequenced in 1976 X17, ssDNA.

Chloroplast DNA in Molecular Systematics. -organelle found in plant cells and eukaryotic algae -Photosynthesis Chloroplast.

Genomes summary 1.>930 bacterial genomes sequenced. 2.Circular. Genes densely packed Mbases, ,000 genes 4.Genomes of >200 eukaryotes (45.

ENDOSYMBIOTIC THEORY Karlie Jaeger General Biology I 17 March 2014.

Human Mitochondrial DNA. 1 st Review: Cell Theory All organisms are composed of cells. All cells come from preexisting cells The cell is the basic unit.

Genome projects and model organisms Level 3 Molecular Evolution and Bioinformatics Jim Provan.

Plant of the Day! Rafflesia arnoldii (Euphorbiaceae)

Organization of the human genome Genome structure Nuclear vs. mitochondrial genomes Gene families Transposable elements Other repeated sequences.

Plant Molecular Systematics Michael G. Simpson

CHAPTER 28 THE ORIGINS OF EUKAYOTIC DIVERSITY Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings Section B: The Origin and Early.

polymorphism Course code: ZOO560 Week 4

1. What is a gene? Definition: A gene is a discrete unit of DNA (or RNA in some viruses) that encodes a nucleic acid or protein product that contributes.

DNA Technology and Genomics Chapter 20 A. P. Biology Mr. Knowles Liberty Senior High School.

21.1 Mitochondria and Chloroplasts Are Eukaryotic Cytoplasmic Organelles Mitochondrion and Chloroplast Structure.

Challenges in Bioinformatics Part I

Genomics Lecture 8 By Ms. Shumaila Azam. 2 Genome Evolution “Genomes are more than instruction books for building and maintaining an organism; they also.

Genomes and Their Evolution. GenomicsThe study of whole sets of genes and their interactions. Bioinformatics The use of computer modeling and computational.

GenomesGenomes Chapter 21 Genomes Sequencing of DNA Human Genome Project countries 20 research centers.

The Biology and Genetic Base of Cancer. 2 (Mutation)

1 Chapter 19 Microbial Taxonomy, Evolution and Diversity.

Ch. 21 Genomes and their Evolution. New approaches have accelerated the pace of genome sequencing The human genome project began in 1990, using a three-stage.

分子演化 Molecular Evolution

Mitochondrial molecular biology 2 evolution of mitochondria maternal inheritance of mtDNA mtDNA and human evolution.

Chapter 24: Molecular and Genomic Evolution CHAPTER 24 Molecular and Genomic Evolution.

Chapter 5 The Content of the Genome 5.1 Introduction genome – The complete set of sequences in the genetic material of an organism. –It includes the.

Molecular Biology Largely Concerned with Gene Expression What Turns it On/Off? How that is Achieved? How Much?

Announcements Urban Forestry data and photos due next week after the break. Reading. Writing assignment due Oct 18. Choose one of the characteristics out.

MitoVariome: A variome database of human mitochondrial DNA

Molecular and Genomic Evolution Getting at the Gene Pool.

By Chris Paine Genes Essential idea: Every living organism inherits a blueprint for life from its parents. Genes and.

Genomes & The Tree of Life

Genomics Chapter 18.

How many genes are there?

Chloroplast Genome Evolution Level 3 Molecular Evolution and Bioinformatics Jim Provan.

Human Mitochondrial Molecular Biology Center for Advanced Studies at Wheeler High School Post-AP DNA/Genetics.

Molecular Clocks and Evolution Bio 135 Summer 2009.

Plant Genomes Houses of genetic materials Total genetic material within a cell Usually referred to a haploid cell [Basic set of genetic material (1x)]

Eukaryotic genes are interrupted by large introns. In eukaryotes, repeated sequences characterize great amounts of noncoding DNA. Bacteria have compact.

Phylogeny Phylogeny- the evolutionary relationships among organisms.

Molecular structure of gene and chromosome Gene: In molecular terms, a gene is the entire DNA sequence required for synthesis of functional protein or.

Looking Within Human Genome King abdulaziz university Dr. Nisreen R Tashkandy GENOMICS ; THE PIG PICTURE.

Organelle genome evolution

Organization of the human genome

Chapter 5 The Content of the Genome

DNA Marker Lecture 10 BY Ms. Shumaila Azam

Mitochondria Q: What organisms have mitochondria?

Phylogeny Phylogeny- the evolutionary relationships among organisms.

Evolution of eukaryote genomes

Organization of the human genome

Phylogeny Phylogeny- the evolutionary relationships among organisms.

The Content of the Genome

The Content of the Genome

Phylogeny and the Tree of Life

Presentation transcript:

Mitochondrial DNA in Molecular Systematics

-organelle found in eukaryotic cells -cellular respiration – ATP production Mitochondria

Mitochondria Evolution Endosymbiotic Theory – Ivan Wallin (1920s) and Lynn Margulis (1981). Proto-Eukaryotic cell incorporated a protobacterial cell and formed a symbiotic relationship (a billion years ago). Primordial eukaryotic cell cyanobacteria Eukaryotic cell Perform Symbiotic Relationship

mtDNA is maternally inherited in animals and plants. More than 1300 complete mitochondrial sequences have been generated. Most of the mitochondrial complete sequences are belonged to animals and algae. Only a few plant species have their mitochondrial genome sequenced: Nicotiana tabacum, Oryza sativa, Triticum aestivum, Zea mays, Sorghum bicolor, Marchantia polymorpha. Plant mtDNA is far more complex than animal mtDNA – larger size ( kb) and variable in size (up to 2000kb). mtDNA

Comparison of Plant mtDNA and cpDNA Nicotiana tabacum Oryza sativa Triticum aestivum Zea mays Sorghum bicolor Marchantia polymorpha 156kb 135kb 135kb 140kb 141kb 121kb 431kb 492kb 453kb kb 496kb 187kb Plant species cpDNA mtDNA

In addition to larger size, plant mtDNA are characterized by molecular heterogeneity. Large duplications are readily created and lost. Plant mtDNAs contain at least one large (1-14kb) repeated sequence. There is no pattern to the sequences (including genes) that are duplicated in the mitochondrial genomes of different plants. Plant mtDNA

Recombination between repeats creates a complex, multipartite genome structure. All of the large repeats found in plant mtDNAs appear to be engaged in high-frequency inter- and intra-molecular recombination.

Plant mtDNA Tricircular structure of the Brassica campesteris mitochondrial genome

Plant mtDNA mtDNA contains short dispersed ( bp) repeats scattered throughout the genome. mtDNA contains many foreign sequences. cpDNA sequences of all kinds (labelled as C1- 11), some as large as 12kb in length, are found integrated in plant mtDNA.

Plant mtDNA Plant mtDNAs change very slowly in nucleotide sequences. Rates of nucleotide substitutions are 3-4 times lower in plant mtDNA than in cpDNA, 12 times lower than in plant nuclear DNA, and times lower than in animal mtDNA. Plant mtDNAs rearrange very rapidly. No two eximined species of flowering plants have the same gene order. Even closely related species differ by one or a few large inversions, whereas the genomes of more distantly related species are virtually randomized with respect to sequence arrangement.

Animal mtDNA Animal mtDNAs are relatively smaller than the plant mtDNAs. The genome size is more conserved.

Comparison Genome Size of Animal mtDNA Aedes aegypti Alligator sinensis Apis mellifera Boa constictor Elephas maximus Gallus gallus Homo sapiens Octopus ocellatus Pongo pymaeus Rana nigromaculata 16.7kb 16.7kb 16.3kb 18.9kb 16.9kb 16.8kb 16.6kb 16kb 16.4kb 17.8kb Animal species mtDNA

Human Mitochondrial Genome Human mtDNA composes of a control region (CR), genes encoding 2 rDNAs (12S and 16S), 22 tRNAs (open circles), 13 polypeptides.

Animal mtDNA Non-recombination. Contains less non-coding sequences. Higher base substitution rate (even higher than the nuclear DNA regions). Gene order/structure is more conserved (stable).

mtDNA in Plant Systematics Mitochondrial DNA regions commonly used for plant systematics: coxI, nad2, atpA, cob, coxIII, 18S, 26S etc. The high rates of rearrangements and low rates of point mutations make mtDNA essentially worthless for the restriction site-based reconstructions of intrafamilial phylogeny for which cpDNA is so well suited. The occasional losses of mitochondrial genes and introns may also serve as useful markers of phylogeny. The low rate of mtDNA substitutions suggests that comparative sequencing efforts will be most rewarding at higher phylogenetic levels.

mtDNA in Animal Systematics RFLP on the whole mitochondrial genome is common in molecular systematics in animals. (involves the isolation of mtDNA from total DNA) DNA sequencing is done on variable regions such as D-loop region (control region), cytochrome b, cytochrome oxidase I, cytochrome oxidase III, 16S, 12S etc.