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Extranuclear Inheritance Dr.Shivani Gupta, PGGCG-11, Chandigarh Commonly defined as transmission through the cytoplasm (or things in the cytoplasm, including organelles) rather than the nucleus Generally only one parent contributes Extranuclear Inheritance • Organelle heredity – Organelles that contain chromosomes • Chloroplasts and mitochondria • Infectious heredity – Involves a symbiotic or parasitic association with a microorganism • Maternal effect – Nuclear gene products are stored in ooplasm and distributed to cells as the fertilized egg divides to form developing embryo Chloroplasts and Mitochondria • These organelles contain DNA – First explanation for [some] maternal inheritance patterns • Endosymbiont theory • Analysis of mutant alleles in organelles can be complex because many genes for organelle components are nuclear-encoded – And even subunits of a multicomponent enzyme may be partially encoded in both locations – Heteroplasmy makes things even worse… Chloroplasts • Carl Correns – A codiscoverer of Mendel‘s work – Worked with four o‘clock plants (Mirabilis jalapa) • Had branches with either white, green or variegated leaves • Type of offspring dependent only upon the phenotype of the branch from which the ovule was derived—not the pollen F(figure 9-1) – Concluded that leave color was dependent upon the chloroplasts and that these or other factors were contributed through the ovule cytoplasm Four O‗Clocks Saccharomyces petite Mutations • petite mutations give rise to small colonies – Aerobic respiration blocked – Live anaerobically • S. cerevisiae is a facultative anaerobe • Two types – Segregational petites encoded by nuclear genes showing Mendelian inheritance – cytoplasmic transmission pattern petites • Neutral petites demonstrate (give all wt offspring when crossed to wt) • Suppressive petites (behave like poky in Neurospora) petite Mutant Crosses Mitochondrial/Chloroplast Evolution • Endosymbiont theory – Lynn Margulis • Mitochondria and chloroplasts arose independently about 2 billion years ago as free-living prokaryotes • Primitive eukaryotes without these abilities engulfed the prokaryotes as endosymbionts – Relationship ultimately changed to that of an organelle – Organelles have circular DNA – Most genes moved to ―nucleus‖ (<10% remain) • Targeting peptides added – Organelle genes/expression still ―prokaryotic‖ Chloroplast Genes/Expression • Chloroplasts have circular DNA and a complete gene expression system – Components derived from cpDNA and nuclear DNA encoded genes – cpDNA commonly 100-225 kbp in size • No nucleosomes, but has introns and large intergenic regions • Multiple copies/organelle (75 in Chlamydomonas) and recombination can occur • Encode rRNAs, tRNAs, rproteins (~70S ribosome) and other proteins/enzymes (92 encode thylakoid proteins in the liverwort) Mitochondrial Genes/Expression • mtDNA is circular, generally relatively small – 16-18 kbp in mammals, 75 kbp in yeast, but 367 kbp in Arabidopsis (a mustard plant) • 5-10 copies/organelle in vertebrates, 20-40 in plants • Introns generally absent, small intergenic spaces in small mtDNAs, reverse in larger ones such as yeast • Genetic code similar but modified • Encodes rRNAs, tRNAs and 13 polypeptides in humans (portions of electron transport chain) Mitochondrial Genes/Expression • Protein synthetic apparatus combination of mtDNA and nuclear-encoded – But nuclear-encoded proteins distinct from their cytoplasmic or nuclear counterparts • RNAP is single polypeptide and is inhibited by rifampicin/rifamycin – But sensitive to antibiotics targeted normally against prokaryotes – Ribosomes range from 55-80S Many proteins encoded by nuclear genes have products transported to mitochondria and RNAs …. mtDNA Mutations and Human Genetic Disorders • Human mtDNA is 16,569 bp – Encodes 13 proteins, 22 tRNAs and 2 rRNAs • Heteroplasmy – Variable mixture of genetically distinct mitochondria/mtDNAs • Properties of mtDNA-encoded traits – Maternal inheritance pattern – Deficiency in bioenergetic function of organelle – Specific mutation in an mtDNA gene Human mtDNA Disorders • Myoclonic epilepsy and ragged red fiber disease (MERRF) – Fibers from proliferation of aberrant mitochondria – Mutation in mtDNA tRNA gene Human mtDNA Disorders • Leber‘s hereditary optic neuropathy (LHON) – – – – Sudden bilateral blindness 9average age 27 yrs) Most mutations in NADH dehydrogenase gene Maternal transmission to all offspring Many cases appear to be ―new‖ mutations • No family history Infectious Heredity • Cytoplasmic transmitted phenotypes in eukaryotes due to an invading microorganism or particle (e.g. virus) Kappa in Paramecium • Certain strains of P. aurelia are called killer strains because they release paramecin, a substance toxic to sensitive strains – Paramecin produced by kappa particles (100200 per cell) that replicate in cytoplasm – Kappa particles contain DNA and protein and require a nuclear gene (K, ―little k‖ strains are sensitive) for maintenance – Kappa particles are bacterialike and may contain temperate phage Infective Particles in Drosophila • CO2 sensitivity – Flies fail to recover from CO2 anesthetization (permanently paralyzed) – Sensitivity due to presence of virus called sigma • Transfer to other insect species unsuccessful, suggesting Drosophila genes essential for its continued propagation/function • Sex ratio in D. bifasciata and D. willistoni – Some flies produce offspring at an altered sex ratio • Mostly female at below 21 degrees Celsius • Trait transmitted only to daughters • Agent shown to be a protozoan that is lethal only to males – And protozoan may have a virus that is actually responsible… Maternal Effect/Maternal Influence • Offspring phenotype under control of nuclear gene product present in the egg – Genetic information of mother used to produce products present in the egg cytoplasm – Snail Limnaea peregra shell coiling is an example Snail Limnaea peregra Shell Coiling • Hermaphroditic snails • Some shells have right-handed (DD or Dd) coiling while others have left-handed (dd)coiling • Reciprocal crosses (reverse mail and female genotypes) of true-breeding snails – Offspring phenotype depends upon maternal genotype—not maternal phenotype