Keywords: Other mammals
New genetic-editing technique to alter the traits and fates of wild populations
Tags: Biodiversity/Conservation, CRISPR, Ecology, Invasive species, Other mammalsLori Dajose, CalTech, 2024.
Gene drives are a common technology used to insert a novel gene into a population—for example, to make mosquitos resistant to malaria. They can also be used to modify existing genes, such as making herbicide-resistant weeds susceptible to herbicides once again or even to ...
Revolutionizing Livestock Biosecurity: Using CRISPR Technology to Combat the New World Screwworm
Tags: CRISPR, Other mammals, Pest management, Sterile insect technique (SIT)Dr. Jessica Nelson, Medriva, 2024.
The New World screwworm, a persistent parasite responsible for significant damage to the global livestock industry, may soon meet its match. Researchers at Uruguay's National Institute of Agricultural Research (INIA) have developed a gene drive using CRISPR technology to combat ...
Invasive Feral Cats Could Be Wiped Out Using Genetic Modification
Tags: CRISPR, Gene drive, Gene editing, Oceania, Other mammalsJess Thomson, Newsweek, 2023.
Hordes of feral cats terrorizing native species in Australia could be combatted using a special type of genetic engineering, scientists have suggested. The cats, which came to Australia via European colonizers, regularly kill native mammals, birds, and reptiles, including ...
A framework for identifying fertility gene targets for mammalian pest control
Tags: Biodiversity/Conservation, Ecology, Gene drive, Other mammals, Pest managementClark, A. C., Edison, R., Esvelt, K., Kamau, S., Dutoit, L., Champer, J., Champer, S. E., Messer, P. W., Alexander, A., & Gemmell, N. J., Molecular Ecology Resources, 00:1–14. 2023.
Fertility-targeted gene drives have been proposed as an ethical genetic approach for managing wild populations of vertebrate pests for public health and conservation benefit. This manuscript introduces a framework to identify and evaluate target gene suitability based on ...
What are gene drives, and how can they help eradicate invasive species in Australia?
Tags: Gene drive, Invasive species, Oceania, Other mammalsDr. Ellen Cottingham, ABC News (Australia Broadcasting Corporation), 2023.
The impact of feral cats and other invasive species is felt across Australia. Not only do they threaten native species, but they can also spread diseases to humans and livestock. Invasive species are estimated to cost Australia an eye-watering $25 billion annually, while the ...
Optimizing the delivery of self-disseminating vaccines in fluctuating wildlife populations
Tags: Biodiversity/Conservation, Ecology, Gene drive, Gene drive synthetic, Modeling, Other mammalsC. Schreiner, A. Basinski, C. Remien and S. Nuismer, PLOS Neglected Tropical Diseases, 17:e0011018. 2023.
Author summary Pathogens such as Ebola, rabies, and Lassa virus that usually infect wildlife can jump to the human population. In the worst case, this can lead to outbreaks or pandemics such as happened in 2014 with Ebola and 2019 with SARS-CoV-2. One approach to mitigate the ...
Genome and Transcriptome Analyses Facilitate Genetic Control of Wohlfahrtia magnifica, a Myiasis-Causing Flesh Fly
Tags: Agriculture, Genetic biocontrol, Other mammalsZ. Jia, S. Hasi, D. Zhan, B. Hou, C. Vogl and P. A. Burger, Insects, 14. 2023.
Myiasis caused by Wohlfahrtia magnifica is a widespread parasitic infestation in mammals. The infested host suffers from damage as the developing larvae feed on its tissues. For the control of myiasis infestation, genetic methods have been shown to be effective and promising as ...
Unravelling transmission ratio distortion across the bovine genome: identification of candidate regions for reproduction defects
Tags: Other mammals, Transmission distortionS. Id-Lahoucine, J. Casellas, A. Suárez-Vega, P. A. S. Fonseca, F. S. Schenkel, M. Sargolzaei and A. Cánovas, BMC Genomics, 24:383. 2023.
Our results revealed the importance of implementing different TRD parameterizations to capture all types of distortions and to determine the corresponding inheritance pattern. Novel candidate genomic regions containing lethal alleles and genes with functional and biological ...
A framework for identifying fertility gene targets for mammalian pest control
Tags: Gene drive, Gene drive synthetic, Genetic biocontrol, Other mammals, Population suppressionC. C. Anna, A. Alana, E. Rey, E. Kevin, K. Sebastian, D. Ludovic, C. Jackson, E. C. Samuel, W. M. Philipp and J. G. Neil, bioRxiv, 2023.05.30.542751. 2023.
Fertility-targeted gene drives have been proposed as an ethical genetic approach for managing wild populations of vertebrate pests for public health and conservation benefit. This manuscript introduces a framework to identify and evaluate target gene suitability based on ...
Oxitec Launches New Technology Program to Develop a Friendly™ Solution for the World’s Most Damaging Cattle Tick
Tags: Other arthropods, Other mammals, Oxitec, Sterile insect technique (SIT)Oxitec Ltd, Oxitec Press Release, 2023.
Oxitec Ltd, the leading developer of insect-based biological solutions to control pests that transmit disease, destroy crops and harm livestock, today announced the launch of development of a targeted, biological Friendly™ solution for the world’s most devastating cattle ...
Social justice environmental activists move to block gene editing to control invasive species and promote biodiversity. Here’s why they’re misguided
Tags: Biodiversity/Conservation, Ethics, Gene drive, Gene drive synthetic, Gene editing, Invasive species, Other mammals, Policy, RegulationS. Smyth, Genetic Literacy Project, 2023.
Control of invasive species has been extremely difficult with eradication virtually impossible. To control invasive plant species, chemicals are commonly used while in some instances removal of plants by hand, as Shiva advocates, is undertaken. Efforts to control invasive animals ...
Bypassing Mendel’s First Law: Transmission Ratio Distortion in Mammals
Tags: Other mammals, Transmission distortionG. Friocourt, A. Perrin, P. A. Saunders, E. Nikalayevich, C. Voisset, C. Coutton, G. Martinez and F. Morel, International Journal Molecular Sciences, 24. 2023.
Mendel's law of segregation states that the two alleles at a diploid locus should be transmitted equally to the progeny. A genetic segregation distortion, also referred to as transmission ratio distortion (TRD), is a statistically significant deviation from this rule. TRD has ...
Meiotic defects in human oocytes: Potential causes and clinical implications
Tags: Genetic engineering, Other mammals, Transmission distortionT. Wu, H. Gu, Y. Luo, L. Wang and Q. Sang, BioEssays, 2022.
Meiotic defects cause abnormal chromosome segregation leading to aneuploidy in mammalian oocytes. Chromosome segregation is particularly error-prone in human oocytes, but the mechanisms behind such errors remain unclear. To explain the frequent chromosome segregation errors, ...
Selfish evolution of placental hormones
Tags: Other mammals, Selfish genetic elementsG. Keegan and M. M. Patten, Evolution, Medicine, and Public Health, 10:391-397. 2022.
We hypothesize that some placental hormones—specifically those that arise by tandem duplication of genes for maternal hormones—may behave as gestational drivers, selfish genetic elements that encourage the spontaneous abortion of offspring that fail to inherit them. Such ...
Genetically-enhanced biocontrols can help fight large invasive mammals
Tags: Biodiversity/Conservation, Gene drive synthetic, Invasive species, Other mammalsPensoft Publishers, Science Daily, 2022.
A team of researchers from the University of Adelaide developed a mathematical model able to simulate the impact of gene drives on mammal populations at a landscape scale. Published in the open-access NeoBiotajournal, their study is the first to estimate the time it would take to ...
Scalability of genetic biocontrols for eradicating invasive alien mammals
Tags: Biodiversity/Conservation, Gene drive synthetic, Invasive species, Modeling, Other mammalsA. Birand, P. Cassey, J. V. Ross, P. Q. Thomas and T. A. A. Prowse, NeoBiota, 74:93-103. 2022.
CRISPR-based gene drives offer novel solutions for controlling invasive alien species, which could ultimately extend eradication efforts to continental scales. Gene drives for suppressing invasive alien vertebrates are now under development. Using a landscape-scale ...
Selfish centromeres and the wastefulness of human reproduction
Tags: Chromosomal drive, Other mammalsL. D. Hurst, PLOS Biology, 20:e3001671. 2022.
Many human embryos die in utero owing to an excess or deficit of chromosomes, a phenomenon known as aneuploidy; this is largely a consequence of nondisjunction during maternal meiosis I. Asymmetries of this division render it vulnerable to selfish centromeres that promote their ...
Do Australians support genetic technology to control feral animals?
Tags: Biodiversity/Conservation, Gene drive synthetic, Genetic biocontrol, Other mammalsE. Phiddian, COSMOS, 2022.
Synthetic biology and genetic technology could be a safer, more humane way of curbing invasive species. Feral cat populations, for instance, could be controlled by preventing them from breeding. But there’s no point trying a new technology it if it doesn’t have public ...
Public perspectives towards using gene drive for invasive species management in Australia
Tags: Biodiversity/Conservation, Gene drive synthetic, Genetic biocontrol, Oceania, Other mammals, Policy, Population suppression, Stakeholder engagementA. Mankad, E. V. Hobman and L. Carter, CSIRO, 2022.
Many pest animal species live and reproduce in high numbers across Australia. This includes animal species, such as cane toads, feral cats, foxes, rodents, wild pigs, wild rabbits. These species significantly damage Australia’s agricultural industries, natural landscapes, and ...
Breeding out the feral cat problem
Tags: Biodiversity/Conservation, Gene drive synthetic, Genetic biocontrol, Other mammalsS. Schmidt, ECOS, 2022.
While feral cats have only existed as part of Australia’s ecosystem for the last 200 or so years, they’ve left a destructive mark on our landscape. They’ve contributed to a growing list of Australian native animals that have become threatened or extinct in that time. ...
Australians open to using genetic technology to manage feral cats
Tags: Biodiversity/Conservation, Gene drive synthetic, Genetic biocontrol, Oceania, Other mammalsCSIRO, MIRAGE, 2022.
New genetic technologies could help address the rise of invasives through a number of ways, one of which is called gene drive. Gene drive can determine the sex of offspring, reducing the number of animals able to reproduce, and therefore over time driving down populations. ...
Investigating CRISPR/Cas9 gene drive for production of disease-preventing prion gene alleles
Tags: Biodiversity/Conservation, CRISPR, Ecology, Gene drive synthetic, Other mammalsA. R. Castle, S. Wohlgemuth, L. Arce and D. Westaway, PLoS One, 17:e0269342. 2022.
Prion diseases are a group of fatal neurodegenerative disorders that includes chronic wasting disease, which affects cervids and is highly transmissible. Given that chronic wasting disease prevalence exceeds 30% in some endemic areas of North America, and that eventual ...
Track New Zealand’s Bid to Take Back Nature
Tags: Biodiversity/Conservation, Invasive species, Oceania, Other mammalsK. Peek, Scientific American, 2022.
A thousand years ago the islands that today form New Zealand were riotously wild. Birds, reptiles and invertebrates flourished in lush forests hundreds of miles from any other landmass. Māori settlers in the 1200s brought Polynesian rats for food, and together the humans and the ...
Gene drives for vertebrate pest control: realistic spatial modelling of eradication probabilities and times for island mouse populations
Tags: Biodiversity/Conservation, CRISPR, Gene drive synthetic, Modeling, Other mammals, Replicator/site directed nucleaseA. Birand, P. Cassey, J. V. Ross, J. C. Russell, P. Thomas and T. A. A. Prowse, Molecular Ecology, 2022.
Abstract Invasive alien species continue to threaten global biodiversity. CRISPR-based gene drives, which can theoretically spread through populations despite imparting a fitness cost, could be used to suppress or eradicate pest populations. We develop an individual-based, ...
Alternatives for mammal pest control in New Zealand in the context of concerns about 1080 toxicant (sodium fluoroacetate)
Tags: Gene drive synthetic, Other mammalsB. Warburton, C. Eason, P. Fisher, N. Hancox, B. Hopkins, G. Nugent, S. Ogilvie, T. A. A. Prowse, J. Ross and P. E. Cowan, New Zealand Journal of Zoology, 43. 2021.
The ongoing use of 1080 toxin for the control of mammal pests in New Zealand remains highly contentious. Several reviews over the last 25 years identified information gaps and areas of concern, both social and scientific. In this paper these areas of concern are discussed and the ...
The Promise of Genetics and Genomics for Improving Invasive Mammal Management on Islands
Tags: CRISPR, Gene drive synthetic, Genomics, Invasive species, Other mammalsB. T. Burgess, R. L. Irvine, G. R. Howald and M. A. Russello, Frontiers in Ecology and Evolution, 9. 2021.
Invasive species are major contributors to global biodiversity decline. Invasive mammalian species (IMS), in particular, have profound negative effects in island systems that contain disproportionally high levels of species richness and endemism. The eradication and control of ...
Genetically Modifying Bats Could Prevent the Next Pandemic, Scientists Say
Tags: Arbovirus, Biodiversity/Conservation, Ecology, Gene drive synthetic, Other mammalsG. Dutton, BioSpace, 2021.
The next COVID pandemic could be prevented by using a gene drive to preemptively edit the genome of bats to prevent them from becoming hosts for coronaviruses, according to a proposal by scientists from Israel’s Interdisciplinary Center (IDC) Herzelia and the National ...
Sustainable Food Production: The Contribution of Genome Editing in Livestock
Tags: CRISPR, Gene drive synthetic, Gene editing, Other mammalsA. Menchaca, Sustainability, 13. 2021.
This article is focused on the scope and perspectives for the application of this technology, which includes improving production traits, enhancing animal welfare through adaptation and resilience, conferring resistance to infectious diseases, and suppressing pests and invasive ...
New biocontrol research to help prevent mice plagues
Tags: Gene drive synthetic, Invasive species, Oceania, Other mammals, Population suppression, RodentsAnonymous, The National Tribune, 2021.
Scientists at the University of Adelaide are partnering with the CSIRO and the Centre for Invasive Species Solutions on breakthrough genetic biocontrol research to help control mice populations and prevent future mice plagues. The three-year research program will identify fast ...
Scientists want to alter rodent genes to prevent mice plagues
Tags: Gene drive synthetic, Invasive species, Oceania, Other mammals, Population suppression, RodentsP. Hannon, The Sydney Morning Herald, 2021.
Mice plagues, such as the one ravaging parts of inland NSW, could become a thing of the past if scientists succeed in modifying the genes of the rodents so that populations crash before they can take off. Paul Thomas, a researcher at the University of Adelaide, is part of an ...
Widespread haploid-biased gene expression enables sperm-level natural selection
Tags: Other mammals, Selfish genetic elements, Transmission distortionK. Bhutani, K. Stansifer, S. Ticau, L. Bojic, A.-C. Villani, J. Slisz, C. M. Cremers, C. Roy, J. Donovan, B. Fiske and R. C. Friedman, Science, eabb1723. 2021.
Here, we show that a large class of mammalian genes are not completely shared across these bridges. We term these genes “genoinformative markers” (GIMs) and show that a subset can act as selfish genetic elements that spread alleles unevenly through murine, bovine, and human ...
Next-generation tools to control biting midge populations and reduce pathogen transmission
Tags: Agriculture, Cytoplasmic incompatibility, Gene drive synthetic, Genetic biocontrol, Other mammals, Policy, Population modification/replacement, Population suppression, Regulation, Stakeholder engagement, WolbachiaP. Shults, L. W. Cohnstaedt, Z. N. Adelman and C. Brelsfoard, Parasites and Vectors, 14:31. 2021.
Biting midges of the genus Culicoides transmit disease-causing agents resulting in a significant economic impact on livestock industries in many parts of the world. Localized control efforts, such as removal of larval habitat or pesticide application, can be logistically ...
Invasive Species Control and Resolution of Wildlife Damage Conflicts: A Framework for Chemical and Genetically Based Management Methods
Tags: Biodiversity/Conservation, Ecology, Gene drive synthetic, Genetic biocontrol, Invasive species, Other mammals, Policy, Regulation, Risk and safetyL. Clark, J. Eisemann, J. Godwin, K. E. Horak, K. Oh, J. O’Hare, A. Piaggio, K. Pepin and E. Ruell, GMOs: Implications for Biodiversity Conservation and Ecological Processes, 2020.
Vertebrate wildlife damage management relates to developing and employing methods to mitigate against damage caused by wildlife in the areas of food production, property damage, and animal or human health and safety. Of the many management tools available
Meet Cosmo, the gene-edited Crispr calf
Tags: CRISPR, Gene drive synthetic, Other mammals, Sex distorterS. D. McClain, Capital Press, 2020.
Cosmo was the grand finale of a series of experiments to create a line of genome-edited cattle tailored for the beef industry. He was designed to produce 75% male offspring.
The future of beef might be a sausage fest
Tags: Agriculture, CRISPR, Gene drive, Other mammals, Sex distorterN. Johnson, grist, 2020.
N. Johnson. (2020) grist. A media report on the creation of a cow with a sex ratio altering genetic change expected to lead to 3/4 of the cow's offspring being males. This type of sex ratio distortion results in gene drive and is also being considered to help control populations ...
Meet Cosmo the Frankenbull: Scientists genetically engineer a bull calf so that 75 per cent of its offspring will be male
Tags: Agriculture, CRISPR, Gene drive, Other mammals, Sex distorterJ. Pinkstone, Daily Mail, 2020.
J. Pinkstone (2020). Daily Mail. A media report on the creation of a cow with a sex ratio altering genetic change expected to lead to 3/4 of the cow's offspring being males. This type of sex ratio distortion results in gene drive and is also being considered to help control ...
A Crispr calf is born. It’s definitely a boy
Tags: Agriculture, Gene drive synthetic, Other mammals, Sex distorterM. Molteni, WIRED, 2020.
M. Molteni (2020). Wired. UC Davis scientists spent years editing a sex-determining gene into bovine embryos. In April, Cosmo arrived—and his DNA reveals how far the field has to go. This type of sex ratio distortion results in gene drive and is also being considered to help ...
Meet the first genetically modified bull. Why did scientists change it
Tags: Agriculture, CRISPR, Gene drive, Other mammals, Sex distorterJ. Kessler, Free News, 2020.
J. Kessler (2020). Free News. UC Davis scientists have successfully introduced a bovine embryo, or the bovine SRY gene, which is responsible for the development of the male. This is the first demonstration of targeted gene insertion for large DNA sequences through embryo-mediated ...
Scientists use CRISPR technology to insert sex-determining gene
Tags: Agriculture, Gene drive synthetic, Other mammals, Sex distorterA. Quinton, Phys Org, 2020.
A. Quinton (2020). Phys Org. Scientists at the University of California, Davis, have successfully produced a bull calf, named Cosmo, who was genome-edited as an embryo so that he'll produce more male offspring. The research was presented in a poster on July 23 at the American ...
First they cloned Dolly the sheep. Now they’re targeting grey squirrels
Tags: Biodiversity/Conservation, Gene drive synthetic, Other mammals, RodentsLeake, J., The Times, 2020.
For 150 years they have wreaked havoc on Britain’s woods and wildlife, but the destructive reign of the grey squirrel could soon be over — ended by DNA editing to ensure that all future females are born infertile. Researchers at the Roslin Institute, the genetics laboratory ...
Dolly the sheep scientists hope DNA editing can wipe out grey squirrels
Tags: Biodiversity/Conservation, Gene drive synthetic, Other mammals, RodentsMcLaughlin, M., The Scotsman, 2020.
They have been poisoned, shot at, and stumbled into traps laid by those who regard them as a ruinous blight on the country’s woodland and wildlife. But now, the grey squirrel is facing arguably its biggest threat yet, with plans to harness the cutting edge of genetic science ...
Genetically engineering wild mice to combat Lyme disease: An ecological perspective
Tags: Evolution, Gene drive synthetic, Other mammals, RodentsSnow, A. A., BioScience, 69:746-756. 2019.
Genetic engineering of wild populations has been proposed for reducing human diseases by altering pathogens’ hosts. For example, CRISPR- based genome editing may be used to create white-footed mice (Peromyscus leucopus) that are resistant to the Lyme disease ...
How gene drives could transform pest control
Tags: Biodiversity/Conservation, Other mammalsTEDx Youth, 2019.
In New Zealand, 25 million native birds are killed each year by introduced predators. New Zealand has an ambitious goal to be predator free by the year 2050; however, current pest control methods will not achieve this goal. In this thought-provoking and compelling talk, ...
Meiotic drive shapes rates of karyotype evolution in mammals
Tags: Evolution, Genetic engineering, Other mammals, Transmission distortionBlackmon, H., J. Justison, I. Mayrose and E. E. Goldberg, Evolution, 73:511-523. 2019.
Chromosome number is perhaps the most basic characteristic of a genome, yet generalizations that can explain the evolution of this trait across large clades have remained elusive. Using karyotype data from over 1000 mammals, we developed and applied a phylogenetic model of ...
Super-Mendelian inheritance mediated by CRISPR-Cas9 in the female mouse germline
Tags: Gene drive synthetic, Other mammals, RodentsGrunwald, HAG, V. M.; Poplawski, G.; Xu, X. R. S.; Bier, E.; Cooper, K. L., Nature, 566:105-109. 2019.
A gene drive biases the transmission of one of the two copies of a gene such that it is inherited more frequently than by random segregation. Highly efficient gene drive systems have recently been developed in insects, which leverage the sequence-targeted DNA cleavage activity of ...
A genetic system for biasing the sex ratio in mice
Tags: Gene drive, Gene drive synthetic, Other mammals, Rodents, X chromosome, Y-chromosomeYosef, IEB, Liat; Globus, Rea; Shlomovitz, Inbar; Munitz, Ariel; Gerlic, Motti; Qimron, Udi, EMBO reports, 20:e48269. 2019.
Biasing the sex ratio of populations of different organisms, including plants, insects, crustacean, and fish, has been demonstrated by genetic and non-genetic approaches. However, biasing the sex ratio of mammalian populations has not been demonstrated genetically. Here, we ...
Genetic manipulation of sex ratio in mammals: the Reaper comes for Mickey
Tags: Gene drive synthetic, Other mammals, Rodents, X chromosome, Y-chromosomeSmanski, MJZ, David, EMBO reports, 20:e48577. 2019.
In most animals, sexual reproduction results in a 1:1 ratio of females to males. For several sectors of agriculture, for example, milk or egg production, only a single sex is needed. Biasing the sex ratio so that only offspring of the desired sex are produced has the potential to ...
CRISPR Gene Drive (Complete guide 2019)
Tags: Biodiversity/Conservation, Gene drive mechanisms, Gene drive synthetic, Mosquitoes, Other mammals, RodentsEvery Cell A Universe, 2018.
Gene drive technology considered in the fight to save native animals from feral cats
Tags: Biodiversity/Conservation, Other mammalsSmail, S, ABC News Online, 2018.
Feral cats kill thousands of native animals every minute — now a controversial plan to use gene drive technology as a weapon against them is being considered by the Federal Government
A Framework for the risk assessment and management of gene drive technology in contained use
Tags: Birds, Other arthropods, Other mammals, Risk and safetyvan der Vlugt, CJBB, David D.; Lehmann, Kathleen; Leunda, Amaya; Willemarck, Nicolas, Applied Biosafety, 23:25-31. 2018.
The utilisation of the CRISPR/Cas9 technology has sparked a renewed interest in gene drive mechanisms. These mechanisms of biased inheritance may yield promising applications in the fields of vector control and nature conservation. However, the same properties that will enable ...
Switchable genome editing via genetic code expansion
Tags: Gene drive synthetic, Other mammals, Risk and safetySuzuki, TA, Maki; Patel, Sanjay G.; Luk, Louis Y. P.; Tsai, Yu-Hsuan; Perry, Anthony C. F., Scientific Reports, 8:10051. 2018.
Multiple applications of genome editing by CRISPR-Cas9 necessitate stringent regulation and Cas9 variants have accordingly been generated whose activity responds to small ligands, temperature or light. However, these approaches are often impracticable, for example in clinical ...
Correction to ‘Dodging silver bullets: good CRISPR gene-drive design is critical for eradicating exotic vertebrates’
Tags: Gene drive mechanisms, Other mammalsProwse, TAAC, Phillip; Ross, Joshua V.; Pfitzner, Chandran; Wittmann, Talia; Thomas, Paul, Proceedings of the Royal Society B: Biological Sciences, 285:1-2. 2018.
Proc. R. Soc. B 284, 20170799. (Published Online 9 August 2017). (doi:10.1098/rspb.2017.0799)We recently found an error in our calculation of the probability of a wild-type allele moving from s to j susceptible sites (), and acquiring the gene drive (), during gene-drive homing, ...
B Chromosomes in populations of mammals revisited
Tags: Chromosomal drive, Evolution, Gene drive mechanisms, Other mammalsVujoševi?, MR, Marija; Blagojevi?, Jelena, Genes, 9:487. 2018.
The study of B chromosomes (Bs) started more than a century ago, while their presence in mammals dates since 1965. As the past two decades have seen huge progress in application of molecular techniques, we decided to throw a glance on new data on Bs in mammals and to review them. ...
Dodging silver bullets: good CRISPR gene-drive design is critical for eradicating exotic vertebrates
Tags: Gene drive mechanisms, Other mammalsProwse, TAAC, Phillip; Ross, Joshua V.; Pfitzner, Chandran; Wittmann, Talia A.; Thomas, Paul, Proceedings of the Royal Society B: Biological Sciences, 284:20170799. 2017.
Self-replicating gene drives that can spread deleterious alleles through animal populations have been promoted as a much needed but controversial ‘silver bullet’ for controlling invasive alien species. Homing-based drives comprise an endonuclease and a guide RNA (gRNA) that ...
Sry gene drive for rodent control: Reply to Gemmell and Tompkins
Tags: Fruit fly, Gene drive synthetic, Other mammals, Y-chromosomeKanavy, DS, M., Trends in Ecology & Evolution, 32:315-316. 2017.
We would like to thank Gemmell and Tompkins for their interest and comments onthe articlebyPiaggioet al. [1].Theissues raised by Gemmell and Tompkins [2] are very pertinent, and they correctly identified that the format of the article did not lend itself to a comprehensive ...
Genetic engineering to eradicate invasive mice on islands: modeling the efficiency and ecological impacts
Tags: Gene drive synthetic, Other mammalsBackus, GAG, K., Ecosphere, 7:e01589. 2016.
Invasive rodents are usually eradicated from islands through the application of chemical toxicants that can harm surrounding ecosystems. A recently proposed alternative involves engineering a house mouse (Mus musculus) to carry a genetic construct that would cause a majority of ...
The dawn of active genetics
Tags: Birds, Gene drive mechanisms, Gene drive synthetic, Other arthropods, Other mammals, Transmission distortionGantz, VMB, E., Bioessays, 38:50-63. 2016.
On December 18, 2014, a yellow female fly quietly emerged from her pupal case. What made her unique was that she had only one parent carrying a mutant allele of this classic recessive locus. Then, one generation later, after mating with a wild-type male, all her offspring ...
Sex chromosome drive
Tags: Gene drive mechanisms, Other arthropods, Other mammals, Transmission distortion, X chromosome, Y-chromosomeHelleu, QG, P. R.; Montchamp-Moreau, C., Cold Spring Harbor Perspectives in Biology, 7:a017616. 2015.
Sex chromosome drivers are selfish elements that subvert Mendel's first law of segregation and therefore are over represented among the products of meiosis. The sex-biased progeny produced then fuels an extended genetic conflict between the driver and the rest of the genome. Many ...
The next generation of rodent eradications: Innovative technologies and tools to improve species specificity and increase their feasibility on islands
Tags: Gene drive, Other mammalsCampbell, KJB, J.; Eason, C. T.; Glen, A. S.; Godwin, J.; Gould, F.; Holmes, N. D.; Howald, G. R.; Madden, F. M.; Ponder, J. B.; Threadgill, D. W.; Wegmann, A. S.; Baxter, G. S., Biological Conservation, 185:47-58. 2015.
Rodents remain one of the most widespread and damaging invasive alien species on islands globally. The current toolbox for insular rodent eradications is reliant on the application of sufficient anticoagulant toxicant into every potential rodent territory across an island. ...
Detrimental effects of an autosomal selfish genetic element on sperm competitiveness in house mice
Tags: Ecology, Fruit fly, Gene drive mechanisms, Other mammals, Rodents, Transmission distortionSutter, AL, A. K., Proceedings of the Royal Society B-Biological Sciences, 282:1-8. 2015.
Female multiple mating (polyandry) is widespread across many animal taxa and indirect genetic benefits are a major evolutionary force favouring polyandry. An incentive for polyandry arises when multiple mating leads to sperm competition that disadvantages sperm from genetically ...
Presence of segregation distortion in sheep
Tags: Evolution, Gene drive mechanisms, Other mammals, Transmission distortionRaed, MA, Research Journal of Biotechnology, 10:87-98. 2015.
The main objective of this project was the investigation of presence of segregation distortion (SD) and description of other relevant parameters of multilocus genetics in Australian Merino sheep. The SD cases investigated three flocks of 98, 79 and 92 offspring and their ...
Centromere strength provides the cell biological basis for meiotic drive and karyotype evolution in mice
Tags: Gene drive mechanisms, Genetics, Other mammals, Rodents, Transmission distortionChmatal, L., S. I. Gabriel, G. P. Mitsainas, J. Martinez-Vargas, J. Ventura, J. B. Searle, R. M. Schultz and M. A. Lampson, Current Biology, 24:2295-2300. 2014.
Mammalian karyotypes (number and structure of chromosomes) can vary dramatically over short evolutionary time frames [1-3]. There are examples of massive karyotype conversion, from mostly telocentric (centromere terminal) to mostly metacentric (centromere internal), in 102-10 s ...
Centromere strength provides the cell biological basis for meiotic drive and karyotype evolution in mice
Tags: Evolution, Gene drive mechanisms, Other mammalsChmatal, LG, S. I.; Mitsainas, G. P.; Martinez-Vargas, J.; Ventura, J.; Searle, J. B.; Schultz, R. M.; Lampson, M. A., Current Biology, 24:2295-2300. 2014.
Mammalian karyotypes (number and structure of chromosomes) can vary dramatically over short evolutionary time frames [1-3]. There are examples of massive karyotype conversion, from mostly telocentric (centromere terminal) to mostly metacentric (centromere internal), in 102-10 s ...
Multiple sex chromosomes in the light of female meiotic drive in amniote vertebrates
Tags: Birds, Evolution, Gene drive mechanisms, Other mammals, Transmission distortionPokorna, MA, M.; Kratochvil, L., Chromosome Research, 22:35-44. 2014.
It is notable that the occurrence of multiple sex chromosomes differs significantly between major lineages of amniote vertebrates. In this respect, birds are especially conspicuous, as multiple sex chromosomes have not been observed in this lineage so far. On the other hand, in ...
Transmission distortion affecting human noncrossover but not crossover recombination: A hidden source of meiotic drive
Tags: Gene drive mechanisms, Other mammals, Transmission distortionOdenthal-Hesse, LB, I. L.; Veselis, A.; Jeffreys, A. J.; May, C. A., PLOS Genetics, 10:e1004106. 2014.
Author Summary Meiosis is an essential feature of sexual reproduction that maintains chromosome number over generations. This specialised form of cell division creates gametes containing a single copy of each chromosome so that each parent contributes half their genetic ...
Guidance on the environmental risk assessment of genetically modified animals
Tags: Birds, Fish, Genetically modified organisms, Other arthropods, Other mammals, Policy, Regulation, Risk and safety, Risk assessmentEuropean Food Safety Authority, European Food Safety Authority, 2013.
This document describes the six sequential steps for the ERA of GM animals, as indicated in Directive 2001/18/EC: (1) problem formulation including hazard and exposure identification; (2) hazard characterisation; (3) exposure characterisation; (4) risk characterisation; (5) risk ...
Mechanism of meiotic drive in mammals
Tags: Other mammals, Transmission distortionChmatal, LF, K.; Schultz, R. M.; Lampson, M. A., Molecular Biology of the Cell, 24:3775. 2013.
Meiotic drive is a phenomenon responsible for an unequal representation of alleles or whole chromosomes among gametes as a result of the mechanics of meiotic division (Sandler et Novitski 1957). When it drives segregation of Robertsonian translocations (Rb), a common chromosomal ...
Evaluating the evidence for transmission distortion in human pedigrees
Tags: Gene drive mechanisms, Other mammals, Transmission distortionMeyer, WKA, B.; Ober, C.; Ebner, T.; Tiemann-Boege, I.; Hudson, R. R.; Przeworski, M., Genetics, 191:215-232. 2012.
Children of a heterozygous parent are expected to carry either allele with equal probability. Exceptions can occur, however, due to meiotic drive, competition among gametes, or viability selection, which we collectively term "transmission distortion" (TD). Although there are ...
Segregation analysis of a sex ratio distortion locus in congenic mice
Tags: Gene drive mechanisms, Other mammals, X chromosomeCasellas, JF, C. R.; Verdugo, R. A.; Medrano, J. F., Journal of Heredity, 101:351-359. 2010.
The congenic HG.CAST-(D17Mit196-D17Mit190) (HQ17(hg/hg)) mouse strain showed a significant departure on the expected 50%/50% offspring sex ratio in more than 2400 progeny (55.7% females). The entire pedigree file included data from 13 nonoverlapping purebred generations and an ...
Evolution of the Schlafen genes, a gene family associated with embryonic lethality, meiotic drive, immune processes and orthopoxvirus virulence
Tags: Evolution, Gene drive, Other mammalsBustos, ON, S.; Ayers, G.; Casola, C.; Perez-Lamigueiro, M. A.; Chippindale, P. T.; Pritham, E. J.; de la Casa-Esperon, E., Gene, 447:11-Jan. 2009.
Genes of the Schlafen family, first discovered in mouse, are expressed in hematopoietic cells and are involved in immune processes. Previous results showed that they are candidate genes for two major phenomena: meiotic drive and embryonic lethality (DDK syndrome). However, these ...
Assessment of transmission distortion on chromosome 6p in healthy individuals using tagSNPs
Tags: Gene drive mechanisms, Other mammalsSantos, PSCH, J.; Schlattmann, P.; Konig, I. R.; Ziegler, A.; Uchanska-Ziegler, B., European Journal of Human Genetics, 17:1182-1189. 2009.
The best-documented example for transmission distortion (TD) to normal offspring are the t haplotypes on mouse chromosome 17. In healthy humans, TD has been described for whole chromosomes and for particular loci, but multiple comparisons have presented a statistical obstacle in ...
Broadening the application of evolutionarily based genetic pest management
Tags: Birds, Gene drive synthetic, Other arthropods, Other mammals, Transmission distortionGould, F, Evolution, 62:500-510. 2008.
Insect- and tick-vectored diseases such as malaria, dengue fever, and Lyme disease cause human suffering, and current approaches for prevention are not adequate. Invasive plants and animals such as Scotch broom, zebra mussels, and gypsy moths continue to cause environmental ...
Meiotic drive at the Om locus in wild-derived inbred mouse strains
Tags: Ecology, Other mammals, Transmission distortionKim, KT, S.; Howard, I. B.; Bell, T. A.; Doherty, H. E.; Ideraabdullah, F.; Detwiler, D. A.; De Villena, F. P. M., Biological Journal of the Linnean Society, 84:487-492. 2005.
Meiotic drive is an evolutionary force in which natural selection is uncoupled from organismal fitness. Recently, it has been proposed that meiotic drive and genetic drift represent major forces in the evolution of the mammalian karyotype. Meiotic drive involves two types of ...
Sex chromosome meiotic drive in hybrid males of the common shrew (Sorex araneus)
Tags: Other mammals, X chromosomeFedyk, SB, U.; Chetnicki, W., Folia Biologica-Krakow, 53:133-141. 2005.
Patterns of sex chromosome segregation in six homozygous males of the common Shrew (Sorex araneus LINNAEUS, 1758) belonging to two chromosomal races, as well as in 16 interracial hybrids were studied. I ascd on their karyotypes the hybrids can be subdivided into two groups: (a) ...
Transmission ratio distortion in mice
Tags: Fruit fly, Gene drive mechanisms, Other mammalsLyon, MF, Annual Review of Genetics, 37:393-408. 2003.
The most studied example of transmission ratio distortion (TRD) in mice is that of the t-complex. This is a variant-region of Chromosome 17 which exists as a polymorphism in wild mice. Males heterozygous for a t-haplotype and a normal Chr 17 transmit-the t haplotype to >50% of ...
Reciprocal crossover asymmetry and meiotic drive in a human recombination hot spot
Tags: Gene drive mechanisms, Other mammals, Transmission distortionJeffreys, AJN, R., Nature Genetics, 31:267-271. 2002.
Human DNA diversity arises ultimately from germline mutation that creates new haplotypes that can be reshuffled by meiotic recombination. Reciprocal crossover generates recombinant haplotypes but should not influence the frequencies of alleles in a population. We demonstrate ...
X chromosome effect on maternal recombination and meiotic drive in the mouse
Tags: Gene drive mechanisms, Other mammals, Transmission distortionde la Casa-Esperon, EL-O, J. C.; de Villena, F. P. M.; Briscoe, T. L.; Malette, J. M.; Vaughan, J. E.; Morgan, K.; Sapienza, C., Genetics, 161:1651-1659. 2002.
We observed that maternal meiotic drive favoring the inheritance of DDK alleles at the Om locus on mouse chromosome 11 was correlated with the X chromosome inactivation phenotype of (C57BL/6Pgk1(a) X DDK)F-1 mothers. The basis for this unexpected observation appears to lie in the ...
An unusual sex-determination system in South American field mice (genus Akodon): The role of mutation, selection, and meiotic drive in maintaining XY females
Tags: Other mammals, Transmission distortion, Y-chromosomeHoekstra, HEH, J. M., Evolution, 55:190-197. 2001.
The mechanism of sex determination in mammals appears highly conserved: the presence of a Y chromosome triggers the male developmental pathway, whereas the absence of a Y chromosome results in a default female phenotype. However, if the Y chromosome fails to initiate the male ...
A genetic test to determine the origin of maternal transmission ratio distortion: Meiotic drive at the mouse Om locus
Tags: Gene drive mechanisms, Other mammalsde Villena, FPMdlC-E, E.; Briscoe, T. L.; Sapienza, C., Genetics, 154:333-342. 2000.
We have shown previously that the progeny of crosses between heterozygous females and C57BL/G males show transmission ratio distortion at the Om locus on mouse chromosome 11. This result has been replicated in several independent experiments. Here we show that the distortion maps ...
Heritability of the maternal meiotic drive system linked to Om and high-resolution mapping of the Responder locus in mouse
Tags: Gene drive mechanisms, Other mammals, Transmission distortionde Villena, FPMdlC-E, E.; Williams, J. W.; Malette, J. M.; Rosa, M.; Sapienza, C., Genetics, 155:283-289. 2000.
Matings between (C57BL/6 X DDK)F-1 females and C57BL/6 males result in a significant excess of offspring inheriting maternal DDK alleles in the central region of mouse chromosome 11 due to meiotic drive at the second meiotic division. We have shown previously that the locus ...
Nonrandom segregation of the mouse univalent X chromosome: Evidence of spindle-mediated meiotic drive
Tags: Other mammals, X chromosomeLeMaire-Adkins, RH, P. A., Genetics, 156:775-783. 2000.
A fundamental principle of Mendelian inheritance is random segregation of alleles to progeny; however, examples of distorted transmission either of specific alleles or of whole chromosomes have been described in a variety of species. In humans and mice, a distortion in chromosome ...
Transmission ratio distortion in females on chromosome 10p11-p15
Tags: Gene drive mechanisms, Other mammals, Transmission distortionPaterson, ADP, A., American Journal of Medical Genetics, 88:657-661. 1999.
A number of recent reports of linkage of markers on chromosome 10p to schizophrenia, and evidence for linkage in one study to bipolar affective disorder, provide encouragement for psychiatric genetics, after nonreplication of linkage findings at other chromosomal regions, The ...
Transmission ratio distortion at the INS-IGF2 VNTR
Tags: Gene drive, Other mammalsEaves, IAB, S. T.; Forster, P.; Ferber, K. M.; Ehrmann, D.; Wilson, A. J.; Bhattacharyya, S.; Ziegler, A. G.; Brinkmann, B.; Todd, J. A., Nature Genetics, 22:324-325. 1999.
Transmission ratio distortion (TRD) is defined as a statistically significant departure from mendelian transmission. So far, evidence of this in humans has been limited or controversial1,2,3,4, and the few established examples involve chromosome rearrangements in lower ...
Meiotic drive favors Robertsonian metacentric chromosomes in the common shrew (Sorex araneus, Insectivora, Mammalia)
Tags: Ecology, Evolution, Gene drive mechanisms, Other mammals, Transmission distortionWyttenbach, AB, P.; Hausser, J., Cytogenetics and Cell Genetics, 83:199-206. 1998.
Meiotic drive has attracted much interest because it concerns the robustness of Mendelian segregation and its genetic and evolutionary stability. We studied chromosomal meiotic drive in the common shrew (Sorex araneus, Insectivora, Mammalia), which exhibits one of the most ...
Segregation distortion in myotonic dystrophy
Tags: Gene drive mechanisms, Other mammals, Transmission distortionMagee, ACH, A. E., Journal of Medical Genetics, 35:1045-1046. 1998.
Myotonic dystrophy (DM) is an autosomal dominant disease which, in the typical pedigree, shows a three generation anticipation cascade. This results in infertility and congenital myotonic dystrophy (CDM) with the disappearance of DM in that pedigree. The concept of segregation ...
Identification of the t complex-encoded cytoplasmic dynein light chain Tctex1 in inner arm I1 supports the involvement of flagellar dyneins in meiotic drive
Tags: Fruit fly, Gene drive mechanisms, Other mammalsHarrison, AO-C, P.; King, S. M., Journal of Cell Biology, 140:1137-1147. 1998.
The cytoplasmic dynein light chain Tctex1 is a candidate for one of the distorter products involved in the non-Mendelian transmission of mouse t haplotypes. It has been unclear, however, how the t-specific mutations in this protein, which is found associated with cytoplasmic ...
Identification of a male meiosis-specific gene, Tcte2, which is differentially spliced in species that form sterile hybrids with laboratory mice and deleted in t chromosomes showing meiotic drive
Tags: Fruit fly, Gene drive mechanisms, Other mammalsBraidotti, GB, D. P., Developmental Biology, 186:85-99. 1997.
Tcte2 (t complex testes expressed 2) is a male meiosis-specific gene that maps to band 3.3 of mouse chromosome 17. Two distinct male fertility defects, hybrid sterility and transmission ratio distortion, have previously been mapped to this region. Hybrid sterility arises in ...
Non-Mendelian transmission at the Machado-Joseph disease locus in normal females: Preferential transmission of alleles with smaller CAG repeats
Tags: Gene drive mechanisms, Other mammals, Transmission distortionRubinsztein, DCL, J., Journal of Medical Genetics, 34:234-236. 1997.
Machado-Joseph disease (MJD), also known as spinocerebellar ataxia type 3, is a neurodegenerative disorder which is associated with a CAG repeat expansion in the MJD1 gene on chromosome 14q32.1. A recent study reported an excess of transmission of disease chromosomes relative to ...
Meiotic drive at the myotonic dystrophy and the cone-rod dystrophy loci on chromosome 19q13.3
Tags: Gene drive mechanisms, Other mammalsInglehearn, CFG, C. Y., American Journal of Human Genetics, 60:1562-1563. 1997.
The apparently conflicting observations of a high new mutation rate at the myotonic dystrophy (DM) locus on chromosome 19q13.3 and of a founder effect for DM chromosomes led researchers to invoke the influence of meiotic drive at this locus. Two studies (Carey et al. 1994; ...
Epistatic control of non-mendelian inheritance in mouse interspecific crosses
Tags: Gene drive mechanisms, Other mammals, Transmission distortionMontagutelli, XT, R.; Nadeau, J. H., Genetics, 143:1739-1752. 1996.
Strong deviation of allele frequencies from Mendelian inheritance favoring Mus spretus-derived alleles has been described previously for X-linked loci in four mouse interspecific crosses. We reanalyzed data for three of these crosses focusing on the location of the gene(s) ...
Analysis of meiotic segregation, using single-sperm typing: Meiotic drive at the myotonic dystrophy locus
Tags: Other mammals, Transmission distortionLeeflang, EPM, M. S.; Arnheim, N., American Journal of Human Genetics, 59:896-904. 1996.
Meiotic drive at the myotonic dystrophy (DM) locus has recently been suggested as being responsible for maintaining the frequency, in the human population, of DM chromosomes capable of expansion to the disease state. In order to test this hypothesis, we have studied samples of ...
The mouse t-complex-encoded protein Tctex-1 is a light chain of brain cytoplasmic dynein
Tags: Fruit fly, Other mammals, Transmission distortionKing, SMD, J. F.; Benashski, S. E.; Lye, R. J.; PatelKing, R. S.; Pfister, K. K., Journal of Biological Chemistry, 271:32281-32287. 1996.
Mammalian brain cytoplasmic dynein contains three light chains of M(r) = 8,000, 14,000, add 22,000 (King, S. M., Barbarese, E., Dillman, J. F., III, Patel-King, R. S., Carson, J. H., and Pfister, K. Kr (1996) J. Biol. Chem. 271, 19358-19366). Peptide sequence data (16/16 residues ...
Segregation distortion of the CTG repeats at the myotonic dystrophy locus
Tags: Gene drive, Gene drive mechanisms, Other mammalsChakraborty, RS, D. N.; Deka, R.; Yu, L. M.; Shriver, M. D.; Ferrell, R. E., American Journal of Human Genetics, 59:109-118. 1996.
Myotonic dystrophy (DM), an autosomal dominant neuromuscular disease, is caused by a CTG-repeat expansion, with affected individuals having greater than or equal to 50 repeats of this trinucleotide, at the DMPK locus of human chromosome 19q13.3. Severely affected individuals die ...
Tctex2 – a sperm tail surface protein mapping to the t-complex
Tags: Fruit fly, Other mammalsHuw, LYG, A. S.; Willison, K.; Artzt, K., Developmental Biology, 170:183-194. 1995.
Transmission ratio distortion (TRD) in mouse t-haplotypes remains the most significant example of meiotic drive in vertebrates. While the underlying mechanism that fuels it is still mysterious, TRD is clearly a complex multigene phenomenon. The characterization of Tctex2 ...
Meiotic drive an Myotonic Dystrophy – Reply
Tags: Evolution, Gene drive, Gene drive mechanisms, Other mammalsCarey, NJ, K.; Nokelainen, P.; Peltonen, L.; Savontaus, M. L.; Juvonen, V.; Anvret, M.; Grandell, U.; Chotai, K.; Robertson, E.; Middletonprice, H.; Malcolm, S., Nature Genetics, 10:133-133. 1995.
Myotonic dystrophy (DM) is a trinucleotide disorder and in sub-clinical individuals there is considerable variation in the length of the CTG repeat. Two groups have recently analysed the patterns of segregation of different sized alleles at this locus and both report an excess of ...
Meiotic drive at the myotonic dystrophy locus
Tags: Gene drive mechanisms, Other mammals, Transmission distortionGennarelli, MD, B.; Baiget, M.; Martorell, L.; Novelli, G., Journal of Medical Genetics, 31:980-980. 1994.
The mutation underlying myotonic dystrophy (DM, MIM* 160900) is the expansion of a CTG trinucleotide repeat sequence at the 3' untranslated region of a protein kinase gene (MT-PK).' The kinetics of this process is influenced by the sex of the transmitting parent and size of the ...
The evolution of lethals in the t-haplotype system of the mouse
Tags: Evolution, Fruit fly, Gene drive mechanisms, Other mammalsCharlesworth, B, Proceedings of the Royal Society B-Biological Sciences, 258:101-107. 1994.
The evolution of lethal haplotypes in the t-haplotype segregation distortion system of Mus is examined by mathematical and computer models. The models assume that there is reproductive compensation for the loss of lethal embryos, such that the net reproductive success of a female ...
Meiotic drive at the Myotonic Dystrophy locus
Tags: Evolution, Gene drive, Gene drive mechanisms, Other mammalsCarey, NJ, K.; Nokelainen, P.; Peltonen, L.; Savontaus, M. L.; Juvonen, V.; Anvret, M.; Grandell, U.; Chotai, K.; Robertson, E.; Middletonprice, H.; Malcolm, S., Nature Genetics, 6:117-118. 1994.
Myotonic dystrophy (DM) is the most common form of adult muscular dystrophy (average incidence 1 in 8,000) 1 • It is an autosomal dominant trait with multisystemic involvement and marked clinical variability. Anticipation, in which symptom severity increases and age of onset ...
Bewildering Bs – An impression of the 1st B-chromosome conference
Tags: Birds, Chromosomal drive, Other arthropods, Other mammalsBeukeboom, LW, Heredity, 73:328-336. 1994.
Ever since their first discovery B chromosomes have attracted attention. Why are they so appealing? The standard chromosomes of an organism are A chromosomes; B chromosomes are extra to this normal complement. In the B chromosome 'bible' (Jones & Rees, 1982) Bs are defined as ...
Meiotic drive on aberrant Chromosome-1 in the mouse is determined by a linked distorter
Tags: Gene drive, Other mammalsAgulnik, SIS, I. D.; Orlova, G. V.; Ruvinsky, A. O., Genetical Research, 61:91-96. 1993.
An aberrant chromosome 1 carrying an inverted fragment with two amplified DNA regions was isolated from wild populations of Mus musculus. Meiotic drive favouring the aberrant chromosome was demonstrated for heterozygous females. Its cause was preferential passage of aberrant ...
Evolution of the mouse t-haplotype – Recent and worldwide introgression to Mus musculus
Tags: Evolution, Fruit fly, Gene drive mechanisms, Other mammalsMorita, TK, H.; Murata, K.; Nozaki, M.; Delarbre, C.; Willison, K.; Satta, Y.; Sakaizumi, M.; Takahata, N.; Gachelin, G.; Matsushiro, A., Proceedings of the National Academy of Sciences of the United States of America, 89:6851-6855. 1992.
Mouse t haplotypes are variants of chromosome 17, consisting of four inversions. Despite the homozygous lethality and pleiotropic effect on embryonic development, sperm production, and recombination, they have widely spread in natural populations of the house mouse (10-40% in ...
Meiotic drive for the aberrant Chromosome-1 in mice is determined by a linked distorter
Tags: Gene drive, Other mammalsAgulnik, SIS, I. D.; Orlova, G. V.; Ruvinsky, A. O., Genetika, 28:47-57. 1992.
AN aberrant chromosome 1 carrying an inverted fragment with two amplified DNA regions was isolated from natural populations of Mus musculus. A meiotic drive favouring the aberrant chromosome was previously demonstrated for heterozygous females. The cause for this was the ...
Meiotic drive of t-haplotypes – chromosome segregation in mice with tertiary trisomy
Tags: Fruit fly, Gene drive mechanisms, Other mammalsAgulnik, AIA, S. I.; Ruvinsky, A. O., Genetical Research, 57:51-54. 1991.
The properties of the t haplotypes, specific mutant states of the proximal region of chromosomes 17 in the house mouse, are of continuing interest. One such property is increased transmission of the t haplotype by heterozygous t/+ males to offspring. Using the reciprocal ...
The Genetic Basis of Transmission-Ratio Distortion and Male Sterility Due to the t Complex
Tags: Fruit fly, Gene drive mechanisms, Other mammalsLyon, MF, American Naturalist, 137:349-358. 1991.
The abnormal transmission ratios observed in male mice heterozygous for a complete t haplotype have been shown by breeding studies to be due to three or more distorter genes acting on a responder gene. The action of the t form of the responder is relatively resistant to this ...
Behavioral reduction in the transmission of deleterious t-haplotypes by wild house mice
Tags: Fruit fly, Gene drive mechanisms, Other mammalsLenington, SH, I. L., The American Naturalist, 137:366-378. 1991.
About 25% of wild house mice are heterozygous (+/t) for a variable recessive haplotype of the T locus. Although t haplotypes are highly deleterious when homozygous, they are maintained in wild mouse populations because they are associated with transmission-ratio distortion in ...
Molecular and chromosomal studies on the origin of t-haplotypes in mice
Tags: Evolution, Fruit fly, Other mammals, Transmission distortionHammer, MF, American Naturalist, 137:359-365. 1991.
Mouse t haplotypes are variant forms of the proximal third of chromosome 17 that enhance their representation in the gene pool by means of a male-specific transmission-ratio distortion. As with other systems of meiotic drive, they are maintained as independent genetic entities by ...
Meiotic drive in female mice heterozygous for the HSR inserts on Chromosome-1
Tags: Gene drive, Other mammalsAgulnik, SIA, A. I.; Ruvinsky, A. O., Genetical Research, 55:97-100. 1990.
Chromosome 1 with one or two long insertions has been previously found in natural mouse populations. The inheritance of chromosome 1 with two insertions from the Yakutsk population is analysed in this paper. It was demonstrated that heterozygous females transmit this chromosome ...
Meiotic drive of the aberrant Chromosome-1 in the house mouse
Tags: Gene drive, Other mammalsAgulnik, SIA, A. I.; Ruvinsky, A. O., Genetika, 26:664-669. 1990.
Animals with aberrant chromosome 1 carrying one or two large insertions were earlier described in natural populations of Mus musculus. In the present work, inheritance of the aberrant chromosome 1 from the Yakutsk population was investigated. It was shown that 80-85% of the ...
Meiotic drive in the sex-chromosome system of the varying lemming, Dicrostonyx torquatus Pall (Rodentia, Microtinae)
Tags: Evolution, Gene drive mechanisms, Other mammals, Transmission distortion, Y-chromosomeGileva, EA, Heredity, 59:383-389. 1987.
In the varying lemming, numerous fertile XY females occur regularly due to the X-linked mutation (X*). Their frequency both in natural populations and laboratory colonies turned out to be about twice higher than that expected under random segregation of heterochromosomes in both ...
Analysis of a general population genetic model of meiotic drive
Tags: Evolution, Fruit fly, Gene drive mechanisms, Other mammalsHartl, DL, Evolution, 24:538-545. 1970.
The purpose of this article is to present the detailed solution of a model of meiotic drive which Lewontin (1968) has suggested would be helpful in understanding the evo- lutionary dynamics of the t-alleles in the house mouse. Because mice tend to breed in small endogamous family ...