Genome in a sentence

(1) We all have a unique genome.

(2) The genome is made up of DNA.

(3) Every living thing has a genome.

(4) The genome can change over time.

(5) The genome is constantly evolving.

(6) The genome is a very complex thing.

(7) Bunyaviruses have a segmented genome.

(8) Identical twins have the same genome.

(9) The Medicago genome has been sequenced.

(10) The genome can be mapped and sequenced.

Genome sentence

(11) The genome can be used to solve crimes.

(12) The genome is unique to each individual.

(13) The retroviral genome is composed of RNA.

(14) The genome can be used to trace ancestry.

(15) The genome can be used to study evolution.

(16) The microsporidian has a small genome size.

(17) The virus has a double-stranded RNA genome.

(18) The medaka genome has been fully sequenced.

(19) The genome can be used to improve medicine.

(20) It takes a lot of work to study the genome.

Genome make sentence

(21) The genome can be used to create new crops.

(22) The genome is a fascinating topic to study!

(23) The genome can be used to identify species.

(24) The Xenopus genome has been fully sequenced.

(25) The genome is very important for our health.

(26) The human genome has over 3 billion letters!

(27) The genome is a source of genetic diversity.

(28) The genome of retroviruses is made up of RNA.

(29) The genome can also be affected by mutations.

(30) The genome can be used to identify criminals.

Sentence of genome

(31) The genome can help us develop new medicines.

(32) The genome can be used to study biodiversity.

(33) The scientist embedded the DNA in the genome.

(34) The human genome contains thousands of genes.

(35) Telomeres protect the integrity of the genome.

(36) The human genome is composed of nucleic acids.

(37) The genome can be used to improve agriculture.

(38) A genome is like a recipe book for our bodies.

(39) The genome is like a blueprint for our bodies.

(40) The genome is a very important thing to study.

Genome meaningful sentence

(41) The genome is a fundamental aspect of biology.

(42) The murine genome has been extensively studied.

(43) The human genome has over 3 billion base pairs.

(44) The genome is constantly changing and evolving.

(45) The genome is a very important part of biology.

(46) The genome can be used to create new medicines.

(47) The genome can be used to create new materials.

(48) The human genome contains many retrotransposons.

(49) The genome of thaliana has been fully sequenced.

(50) The genome is like a recipe book for our bodies.

Genome sentence examples

(51) The genome can be used to study extinct species.

(52) The genome can tell us about our family history.

(53) The genome can also tell us about our ancestors.

(54) The tetraploid organism had a larger genome size.

(55) The genome of baculoviruses is large and complex.

(56) Eucaryotes have a larger genome than prokaryotes.

(57) Eukaryotes have a larger genome than prokaryotes.

(58) The exome contains about 1% of the entire genome.

(59) The genome tells our bodies how to grow and work.

(60) Scientists use special tools to study the genome.

Sentence with genome

(61) The genome can be studied using special machines.

(62) The genome is a very important part of our bodies.

(63) The human genome contains billions of nucleotides.

(64) The genome can be used to help endangered species.

(65) The genome can be used to create new technologies.

(66) The genome is a very powerful tool for scientists.

(67) The genome can be used to study ancient organisms.

(68) Aneuploidy can affect any chromosome in the genome.

(69) The human genome contains decillions of base pairs.

(70) The exome is composed of all the exons in a genome.

Use genome in a sentence

(71) The genome can be used to develop new technologies.

(72) The genome can also tell us about our health risks.

(73) The genome of a bacteria can be circular or linear.

(74) The genome of a fruit fly has been fully sequenced.

(75) The genome can be analyzed to predict disease risk.

(76) The genome is a valuable tool for medical research.

(77) The human genome contains millions of dinucleotides.

(78) Vaccinia is a complex virus that has a large genome.

(79) The melanogaster genome was first sequenced in 2000.

(80) The genome can also be used to create new medicines.

Sentence using genome

(81) The genome can be affected by environmental factors.

(82) The genome can help us create personalized medicine.

(83) The human genome contains about 20,000-25,000 genes.

(84) The genome is passed down from parents to offspring.

(85) The human genome consists of billions of nucleotides.

(86) Ameban is a primitive organism with a complex genome.

(87) The human genome contains millions of trinucleotides.

(88) The genome tells our bodies how to grow and function.

(89) The genome can be used to identify genetic disorders.

(90) The genome can be used to identify different species.

Genome example sentence

(91) The human genome contains approximately 20,000 genes.

(92) The genome can be used to diagnose genetic disorders.

(93) The chromosomes interlock across the genome structure.

(94) The genome can be used to study ancient civilizations.

(95) The genome is a very interesting thing to learn about.

(96) The genome can help us understand how our bodies work.

(97) The genome can be used to improve crops and livestock.

(98) The genome of a virus can be used to develop vaccines.

(99) The genome can be altered through genetic engineering.

(100) The genome can be used to study the genetics of aging.

Sentence with word genome

(101) The human genome encodes hundreds of different kinases.

(102) Retrotransposons can be used to study genome evolution.

(103) The genome can be used to improve conservation efforts.

(104) The genome can be passed down from parents to children.

(105) The genome can help us understand how diseases develop.

(106) The complexity of the human genome baffles geneticists.

(107) They are quantitating the number of genes in the genome.

(108) Eukaryotes have a larger genome compared to prokaryotes.

(109) The complexity of the human genome defies understanding.

(110) Researchers discovered a pseudogene in the human genome.

Sentence of genome

(111) The complexity of the human genome defies comprehension.

(112) The viral genome consists of approximately 10 kilobases.

(113) The complexity of the human genome can boggle your mind.

(114) The genome can also help us find ways to treat diseases.

(115) The genome can be used to study diseases and find cures.

(116) The genome of a fungus can be used to develop new drugs.

(117) The avian genome has been sequenced for several species.

(118) The genome can be used to develop personalized medicine.

(119) The genome of Escherichia coli has been fully sequenced.

(120) Prokaryotes have a smaller genome compared to eukaryotes.

Genome used in a sentence

(121) The genome is passed down from parents to their children.

(122) The genome can be used to study the effects of pollution.

(123) The genome of a fish can be used to study their behavior.

(124) Scientists study the genome to understand how genes work.

(125) The genome can be used to study the genetics of behavior.

(126) The genome of a retrovirus consists of RNA instead of DNA.

(127) The genome of retrovirus is made up of RNA instead of DNA.

(128) The genome of microsporidia is highly reduced and compact.

(129) The genome of a dog can be used to study genetic diseases.

(130) The genome of a spider can help us understand their venom.

Genome sentence in English

(131) The genome can be sequenced to identify genetic mutations.

(132) The genome is the blueprint for an organism's development.

(133) Scientists are working to reconstruct the denisovan genome.

(134) Biobankings are crucial for understanding the human genome.

(135) The genome of some viruses consists of single-stranded RNA.

(136) Alu is a type of retrotransposon found in the human genome.

(137) Scientists study the genome to learn more about our bodies.

(138) The genome can help us understand why some people get sick.

(139) Scientists are always learning new things about the genome.

(140) We can learn a lot about our bodies by studying the genome.

(141) The genome can help us develop new treatments for diseases.

(142) The genome can be used to study the effects of overfishing.

(143) The genome of a virus is much smaller than that of a human.

(144) The genome of a plant can be used to develop new medicines.

(145) Junk DNA makes up a significant portion of the human genome.

(146) The scientists wonder at the complexity of the human genome.

(147) Cytogenetics has allowed scientists to map the human genome.

(148) The genome of pseudoobscura has been sequenced and analyzed.

(149) Antimatters have been used in the study of the human genome.

(150) The exome is the part of the genome that codes for proteins.

(151) The genome can help us understand why we look the way we do.

(152) The genome can help us understand how life evolved on Earth.

(153) The genome can be used to study the effects of habitat loss.

(154) The genome of a bacteria can be used to produce antibiotics.

(155) The human genome is the complete set of DNA in a human cell.

(156) The human genome contains approximately 20,000-25,000 genes.

(157) The genome can be used to study the genetics of personality.

(158) The prokaryotic genome is smaller than the eukaryotic genome.

(159) Eukaryotes have a larger genome size compared to prokaryotes.

(160) The genome can be used to study the history of life on Earth.

(161) The genome can help us predict what traits a baby might have.

(162) The genome can be passed down from parents to their children.

(163) The genome can be used to study the effects of deforestation.

(164) The genome can be used to study the effects of air pollution.

(165) The genome of a whale can help us understand their evolution.

(166) The genome of a plant can be modified to increase crop yield.

(167) The professor's lecture on the human genome was enlightening.

(168) Eukaryotic cells have a larger genome than prokaryotic cells.

(169) The genome can be used to study the genetics of intelligence.

(170) The human genome project was a major scientific breakthrough.

(171) The human genome contains approximately 3 billion base pairs.

(172) Retroelements can be used as indicators of genome instability.

(173) The chromosomes interlock before forming the genome structure.

(174) Scientists study the genome to learn more about living things.

(175) The genome can be used to study the effects of climate change.

(176) The genome can be used to study the effects of global warming.

(177) The genome of a chimpanzee is very similar to that of a human.

(178) The genome of a dinosaur can be used to study their evolution.

(179) The genome can be used to identify evolutionary relationships.

(180) The genome can be used to study the genetics of drug response.

(181) The presence of transposons can contribute to genome evolution.

(182) The chromatinic landscape of the genome is constantly changing.

(183) Retroelements can contribute to genome evolution and diversity.

(184) The identification of isochores has improved genome annotation.

(185) The genome can be used to study the diversity of life on Earth.

(186) The genome is an important tool for scientists and researchers.

(187) The genome can be used to study the effects of water pollution.

(188) The genome of a human can be used to study population genetics.

(189) The genome of a bee can be used to study their social behavior.

(190) The concept of the human genome originated in the 20th century.

(191) The reference genome was used as a template for the experiment.

(192) The genome is responsible for determining an organism's traits.

(193) The human genome consists of approximately 3 billion base pairs.

(194) The genome of Saccharomyces cerevisiae has been fully sequenced.

(195) The exploration of the human genome is in the realm of genetics.

(196) The genome of the virus is approximately 10 kilobases in length.

(197) The transgene was successfully inserted into the plant's genome.

(198) The transposon insertion can cause mutations in the host genome.

(199) The genome can also help us understand why we act the way we do.

(200) The genome can be used to study the effects of invasive species.

(201) The genome of a plant can be much larger than that of an animal.

(202) The genome of a human can be used to identify genetic disorders.

(203) The exploration of the human genome has revolutionized medicine.

(204) The genome is a complex system of genes and regulatory elements.

(205) The cartography of the human genome has revolutionized medicine.

(206) The acentric chromosome is a rare occurrence in the human genome.

(207) The movement of transposons can contribute to genome instability.

(208) Retroviruses can integrate their DNA into the host cell's genome.

(209) Retroelements are genetic elements that can move within a genome.

(210) The human genome contains approximately three billion base pairs.

(211) Cosmids are often used in genome mapping and sequencing projects.

(212) The genetic map of the human genome has been extensively studied.

(213) The genome can help us understand why some people have allergies.

(214) The genome can be used to study the effects of natural disasters.

(215) The genome of a reptile can be used to study their immune system.

(216) The genome can be used to study the genetics of athletic ability.

(217) Endogenous retroviruses make up a large part of the human genome.

(218) The team of scientists collaborated on decoding the human genome.

(219) The gene mutation was identified through whole-genome sequencing.

(220) The frequency of GCT in a genome can vary among different species.

(221) The geneticist worked on a project to map the entire human genome.

(222) Pseudogenes can be found in the genome alongside functional genes.

(223) Telomerase is involved in maintaining the integrity of the genome.

(224) The retroelement insertion can cause mutations in the host genome.

(225) Noncoding regions of the genome can influence chromatin structure.

(226) The genome of orthomyxovirus is composed of eight segments of RNA.

(227) The genome of some bacteriophages consists of single-stranded DNA.

(228) The hepadnavirus genome is circular and partially double-stranded.

(229) The geneticist identified the mutant gene in the patient's genome.

(230) The genome of Drosophila melanogaster was first sequenced in 2000.

(231) Scientists study the genome to learn more about different species.

(232) The genome is the complete set of genetic material in an organism.

(233) The exploration of the human genome is a groundbreaking discovery.

(234) The nucleolus is essential for the maintenance of genome stability.

(235) Genetic science has improved our understanding of the human genome.

(236) The genomic sequencing project aims to map the entire human genome.

(237) The nucleoli are essential for the maintenance of genome stability.

(238) The retrotransposon array is found in the genome of many organisms.

(239) The presence of retroelements can impact the stability of a genome.

(240) The human genome contains many different types of retrotransposons.

(241) Isochores can be used to identify functional regions of the genome.

(242) The sequencing reads covered a total of 50 kilobases of the genome.

(243) The genome can be used to study the evolution of different species.

(244) The genome contains all the information needed to make an organism.

(245) The genome can be used to study the effects of ocean acidification.

(246) Scientists study the genome to understand how traits are inherited.

(247) The genome can be used to study the genetics of disease resistance.

(248) The human genome is composed of billions of nucleic acid base pairs.

(249) The recombinant DNA sequence was inserted into the bacterial genome.

(250) The mapping of the human genome has revolutionized medical research.

(251) The retrovirus's DNA is then integrated into the host cell's genome.

(252) Centromeres are crucial for maintaining the stability of the genome.

(253) The dystrophin gene is one of the largest genes in the human genome.

(254) The explorations of the human genome have advanced medical research.

(255) The human genome is estimated to contain around 3 billion kilobases.

(256) The rotaviral genome consists of 11 segments of double-stranded RNA.

(257) Noncoding regions of the genome are highly conserved across species.

(258) The macronuclei of Paramecium contain multiple copies of the genome.

(259) The flavivirus genome is composed of a single-stranded RNA molecule.

(260) The amoeban genome is relatively small compared to other eukaryotes.

(261) The genome of cerevisiae has been extensively studied by scientists.

(262) The genome is a very complex thing, but it is also very interesting.

(263) The genome can help us understand how different species are related.

(264) The discovery of the human genome has led to new medical treatments.

(265) The scientist was delving into the complexities of the human genome.

(266) The human genome contains approximately 3 billion base pairs of DNA.

(267) The repair of abasic DNA is crucial for maintaining genome stability.

(268) Certain sections of junk DNA may have structural roles in the genome.

(269) Centromeres are known to be involved in maintaining genome stability.

(270) Nucleoproteins are essential for the maintenance of genome stability.

(271) Topoisomerase is a key player in the maintenance of genome stability.

(272) The presence of retroelements in a genome can affect gene expression.

(273) The function of many noncoding regions of the genome remains unknown.

(274) The scientist's research explored the penetralia of the human genome.

(275) The genome of a virus can be used to study the evolution of diseases.

(276) The genome of a jellyfish can be used to study their bioluminescence.

(277) The cartographic map of the human genome is constantly being updated.

(278) Capsids can protect the viral genome from degradation by host enzymes.

(279) The sequencing of the human genome was a major scientific achievement.

(280) The retrotransposon array can influence gene expression in the genome.

(281) The replicons in this array represent different regions of the genome.

(282) Retrotransposons are genetic elements that can move around the genome.

(283) The study of amphiploidies can provide insights into genome evolution.

(284) The genome can help us understand why some people have certain traits.

(285) The genome of a mammal can be used to study their reproductive system.

(286) The kilobases array is used to identify specific genes within a genome.

(287) The study of retroelements has provided insights into genome evolution.

(288) The genome of a bird can help us understand their adaptation to flight.

(289) The Human Genome Project mapped out all of the genes in the human body.

(290) The circularizers were used to create a circular genome for sequencing.

(291) The baculovirus genome is large and complex, containing over 100 genes.

(292) Certain dinucleotides are more abundant in coding regions of the genome.

(293) The frequency of GCT in a genome can be influenced by natural selection.

(294) The researchers analyzed how certain genes co-occur in the human genome.

(295) The study of retroelements has revealed their role in genome plasticity.

(296) The viral genome contains several genes spanning thousands of kilobases.

(297) Certain dinucleotides are more abundant in the human genome than others.

(298) The genome can be used to study the impact of humans on the environment.

(299) The genome can help us identify different species of plants and animals.

(300) The allotypically conserved regions of the genome were highly conserved.

(301) The macronucleus contains multiple copies of the genome in some species.

(302) Alu elements can be used as targets for gene therapy and genome editing.

(303) The germline genome is the blueprint for an individual's genetic makeup.

(304) The genome of Streptomyces avermitilis has been sequenced and annotated.

(305) The study of noncoding regions of the genome is a rapidly growing field.

(306) The acentric chromosome can cause structural abnormalities in the genome.

(307) Genetic mutation can occur in specific genes or affect the entire genome.

(308) The unfathomable complexity of the human genome is still being unraveled.

(309) The double-stranded RNA genome of the virus is transcribed into proteins.

(310) The genome can help us understand why some people have different talents.

(311) The genome of a bacteria can be used to clean up environmental pollution.

(312) The genome of a microbe can be used to study their role in the ecosystem.

(313) The human genome is made up of approximately 3 billion base pairs of DNA.

(314) The Alu repeat is one of the most abundant sequences in the human genome.

(315) Researchers have identified over 13,000 genes in the melanogaster genome.

(316) The human genome is estimated to be around 3 billion kilobases in length.

(317) The telocentric chromosome is an important component of the human genome.

(318) The doublehelical structure of a virus's genome determines its virulence.

(319) Endogenous retrotransposons are mobile genetic elements within our genome.

(320) Junk DNA can be found in both coding and non-coding regions of the genome.

(321) Intranuclear processes are tightly regulated to maintain genome stability.

(322) Retrotransposons can move within the genome by a copy-and-paste mechanism.

(323) The genome of spirochaetes is relatively small compared to other bacteria.

(324) The genome can also help us understand why some people are good at sports.

(325) The genome of a butterfly can help us understand their migration patterns.

(326) The study of isochores has helped researchers understand genome evolution.

(327) The stability of nucleosomes is important for maintaining genome integrity.

(328) The labyrinths of the human genome are still being unraveled by scientists.

(329) Transversion can occur in both coding and non-coding regions of the genome.

(330) The genome can be used to study the relationship between different species.

(331) The genome can be used to improve our understanding of the world around us.

(332) The genome can help us understand why some people have different interests.

(333) The genome can help us understand why some people have different abilities.

(334) Eukaryotes have a larger genome than prokaryotes, and they have more genes.

(335) The genome of Arabidopsis was the first plant genome to be fully sequenced.

(336) The presence of duplications can complicate genome assembly and annotation.

(337) Polymorphisms can occur in both coding and non-coding regions of the genome.

(338) Conjugative transposons can integrate into the genome of the recipient cell.

(339) The acrocentric region of the genome contains important regulatory elements.

(340) Transposons are DNA sequences that have the ability to move within a genome.

(341) The choanoflagellate's genome contains genes that are also found in animals.

(342) The presence of retroelements can impact the stability of a species' genome.

(343) The genome can be used to study the relationships between different species.

(344) The Human Genome Project mapped the entire DNA sequence of the human genome.

(345) The sequencing of the human genome has revolutionized the field of medicine.

(346) The submetacentric chromosome is an essential component of the human genome.

(347) The dimeric DNA-binding protein recognized specific sequences in the genome.

(348) Pseudogenes can be found in both coding and non-coding regions of the genome.

(349) Transposons can be found in both coding and non-coding regions of the genome.

(350) The retrotransposon array is known for its ability to move within the genome.

(351) The movement of transposons can lead to genetic rearrangements in the genome.

(352) Diploidy provides a buffer against harmful mutations in an organism's genome.

(353) Ribonucleotide excision repair is essential for maintaining genome stability.

(354) The retroelement L1 is the most abundant retrotransposon in the human genome.

(355) The octoploid genome of the fish allowed it to adapt to various environments.

(356) The genome can help us understand why some people are good at certain things.

(357) The genome can help us understand why some people have different skin colors.

(358) Scientists are studying the human genome to better understand how genes work.

(359) The bovine genome has been extensively studied to improve breeding practices.

(360) The Human Genome Project aimed to sequence all the genes in the human genome.

(361) Germline engineering raises ethical concerns about altering the human genome.

(362) Scientists used restriction mapping to construct a physical map of the genome.

(363) The study of retroelements has shed light on the mechanisms of genome defense.

(364) The double-stranded RNA genome of the virus is translated into viral proteins.

(365) The complexity of the human genome is still beyond understanding in many ways.

(366) The virus has a doublestranded RNA genome that allows it to replicate quickly.

(367) The macronuclear genome of Paramecium tetraurelia contains thousands of genes.

(368) The macronuclear genome of Didinium nasutum is highly compacted and organized.

(369) The scientist's research focused on unlocking the ignotum of the human genome.

(370) Microsatellites are found in both coding and non-coding regions of the genome.

(371) The ploidy of this bacteria is haploid, as it only has one copy of its genome.

(372) The cdna was used to identify a novel gene in a genome-wide association study.

(373) Retroviral integration into the host genome is a key step in viral replication.

(374) The retrotransposon array is thought to have played a role in genome evolution.

(375) Retroelements can be found in both coding and non-coding regions of the genome.

(376) The double-stranded RNA genome of the virus can be targeted by antiviral drugs.

(377) The genome can help us understand why some people have different personalities.

(378) The bovine genome has been sequenced to better understand their genetic makeup.

(379) Allotetraploidy can occur through hybridization followed by genome duplication.

(380) The allotypically conserved regions of the genome were used for genome editing.

(381) The presence of acrocentric chromosomes can affect the stability of the genome.

(382) The frequency of duplications in the genome can vary between different species.

(383) The repair of abasic DNA is crucial for maintaining the integrity of the genome.

(384) The sequencing of the virus's genome helped scientists understand its structure.

(385) The study of chromatin architecture has revealed insights into genome evolution.

(386) Allopolyploids can serve as models for studying genome evolution and speciation.

(387) The viral genome consists of multiple segments, each spanning several kilobases.

(388) The genome can help us understand why some people have different tastes in food.

(389) The heterologous gene was introduced into the plant genome using transformation.

(390) The scientists conducted a de novo analysis of the genome to identify new genes.

(391) The team used de novo assembly to reconstruct the entire genome of the organism.

(392) Papovavirus is a small, non-enveloped virus that contains a circular DNA genome.

(393) Duplications in the genome can lead to genetic disorders, such as Down syndrome.

(394) Capsids play a crucial role in protecting the viral genome from external factors.

(395) Chromomeres are thought to play a role in the spatial organization of the genome.

(396) Stable transfection involves integrating foreign DNA into the host cell's genome.

(397) Point mutations can occur at a higher frequency in certain regions of the genome.

(398) Matroids have been applied in the analysis of DNA sequencing and genome assembly.

(399) The scientists were able to sequence the genome of the rare species of butterfly.

(400) Isochores can be used to identify regions of the genome under selective pressure.

(401) The genome can also help us understand why some people have different eye colors.

(402) The genome can help us understand why some people have different learning styles.

(403) The genome can be used to study the effects of human activity on the environment.

(404) The formation of blastospores is regulated by specific genes in the fungal genome.

(405) The acrocentric chromosome is one of the smallest chromosomes in the human genome.

(406) The fidelity of polymerase is crucial for maintaining the integrity of the genome.

(407) The researchers used a mutagenize agent to induce mutations in the plant's genome.

(408) The acrocentric region of the genome is highly conserved across different species.

(409) Transposons can be used as markers to track the movement of genes within a genome.

(410) Retrotransposons can be found in both coding and non-coding regions of the genome.

(411) The production of pyocyanin is regulated by various genes in the bacterial genome.

(412) The cenogenetic changes in the genome were caused by a sudden environmental shift.

(413) The centromeric chromatin structure is important for maintaining genome stability.

(414) A genetic map of a bacterial genome can help identify antibiotic resistance genes.

(415) The cytogeneticist's work helped to advance our understanding of the human genome.

(416) The extranuclear genome of mitochondria plays a crucial role in energy production.

(417) Somatic cell gene editing raises ethical concerns about altering the human genome.

(418) The genome can be used to study the impact of climate change on different species.

(419) Dinucleotide frequencies can be used to identify functional elements in the genome.

(420) The development of amyloplast is regulated by specific genes in the plant's genome.

(421) The formation of allopolyploids can result in changes in genome size and structure.

(422) The phenome is interconnected with other omes such as the genome and transcriptome.

(423) The function of dinucleotides in non-coding regions of the genome is still unclear.

(424) Recombinational DNA repair is a crucial mechanism for maintaining genome stability.

(425) The mutational burden in the patient's genome was associated with a poor prognosis.

(426) RNS technology has revolutionized the way we study and understand the human genome.

(427) The noncoding regions of the genome are thought to play important regulatory roles.

(428) The research team spent months to sequence the genome of the ancient human remains.

(429) The hepadnavirus life cycle involves integration of viral DNA into the host genome.

(430) The macronuclear genome of Euplotes crassus contains multiple copies of some genes.

(431) The mutational burden in the patient's genome was associated with disease severity.

(432) The genome of a mosquito can help us understand their role in disease transmission.

(433) The genome can also help us understand why some people are more likely to get sick.

(434) The genome can help us understand why we are all unique and special in our own way.

(435) The repair of abasic sites is an important process in maintaining genome stability.

(436) The retrotransposon array is a dynamic part of the genome that can change over time.

(437) Understanding the replication dynamics of replicons is crucial for genome stability.

(438) The viral genome is packaged inside the virions and carries the genetic information.

(439) The lab technician was tasked to sequence the genome of the virus for further study.

(440) The macronuclear genome of Oxytricha trifallax undergoes programmed DNA elimination.

(441) The transposon excision can lead to the restoration of the original genome sequence.

(442) The genome can help us understand why some people are taller or shorter than others.

(443) Ligation is an essential step in the creation of DNA libraries for genome sequencing.

(444) The study of chromomeres has contributed to our understanding of genome organization.

(445) Chromatin remodeling is essential for DNA repair and maintenance of genome integrity.

(446) The discovery of transposons revolutionized our understanding of genome organization.

(447) Scientists are studying the human genome to develop a treatment for genetic diseases.

(448) The genome sequencing project aims to decode all the kilobases of DNA in an organism.

(449) The Xenopus laevis has a diploid genome size of approximately 3.1 billion base pairs.

(450) The groundbreaking research on the human genome has led to many medical advancements.

(451) The Human Genome Project was a massive effort to map all the genes in the human body.

(452) The genome can help us understand why some people are tall and some people are short.

(453) The genome can help us understand why some people are more prone to certain diseases.

(454) The genome can help us understand why some people have different hair and eye colors.

(455) The biology students were asked to trawl for information on the human genome project.

(456) Whole genome sequencing provides a comprehensive view of an organism's genetic makeup.

(457) Meiosis is a highly regulated process to prevent errors and maintain genome integrity.

(458) The researchers sequenced the genome of the bacillus to understand its genetic makeup.

(459) The development of paraphyses is regulated by specific genes within the fungal genome.

(460) The study of retroelements has revealed their role in genome evolution and adaptation.

(461) The allotypically conserved regions of the genome were used for phylogenetic analysis.

(462) The neanderthal genome has been sequenced, revealing new insights into human ancestry.

(463) The study of the genome of the fruit fly has provided valuable insights into genetics.

(464) The Human Genome Project was a scientific effort to map the entire human DNA sequence.

(465) The genome can help us understand why some people have different preferences in music.

(466) The sundering of the human genome has led to new discoveries in genetics and medicine.

(467) The activity of topoisomerase is essential for maintaining the integrity of the genome.

(468) The three-dimensional organization of chromatin is critical for proper genome function.

(469) The retrotransposon array is found in both coding and non-coding regions of the genome.

(470) The study of transposons has provided insights into the mechanisms of genome evolution.

(471) The double-stranded RNA genome of the virus can be detected using molecular techniques.

(472) The Human Genome Project was a massive effort to map and sequence the entire human DNA.

(473) The avialan genome has been sequenced and analyzed to better understand bird evolution.

(474) The genome of picornaviruses is relatively simple, consisting of a single RNA molecule.

(475) The retrotransposon array is often found in regions of the genome with low gene density.

(476) The secrets of the human genome are a closed book that geneticists are trying to unlock.

(477) The company invested millions to sequence the genome of the crop plant for better yield.

(478) The replication of replicons is tightly regulated to ensure accurate genome duplication.

(479) The Human Genome Project was a massive effort to map all of the genes in the human body.

(480) The study of allopolyploids can provide insights into the mechanisms of genome stability.

(481) Transposons are DNA sequences that can move from one location to another within a genome.

(482) The study of duplications in the genome is important for understanding genetic diversity.

(483) The researchers were able to sequence the genome of the extinct animal using ancient DNA.

(484) Episomes can integrate into the host chromosome, becoming a permanent part of the genome.

(485) The intercalating dye was able to highlight the location of specific genes in the genome.

(486) The viral genome consists of a single-stranded RNA molecule of approximately 7 kilobases.

(487) The geneticist used advanced sequencing techniques to decode the genome of a rare species.

(488) The provirus can remain in the host's genome for a long time without causing any symptoms.

(489) The lethal gene was removed from the genome of the organism using gene editing technology.

(490) The genome can help us understand why some people have different strengths and weaknesses.

(491) The introns array plays a crucial role in understanding the complexity of the human genome.

(492) The plasmid is being used to study the role of mobile genetic elements in genome evolution.

(493) The restriction map provided important clues about the organization of genes in the genome.

(494) Scientists are studying the acrocentric region of the genome for potential disease markers.

(495) The development of gametocytes is regulated by specific genes within the parasite's genome.

(496) The macronuclear genome of Didinium nasutum is relatively small compared to other ciliates.

(497) The dimeric viral capsid protein assembled into a protective shell around the viral genome.

(498) The genome of the virus mutates rapidly, making it difficult to develop effective vaccines.

(499) The retrotransposon array is an important component of the genome's structural organization.

(500) The double-stranded RNA genome of the virus can be used as a template for viral replication.

(501) The viral genome is made up of several replicons that are responsible for viral replication.

(502) The discovery of the human genome has opened up new possibilities for personalized medicine.

(503) The genome of the plant is highly adaptable, allowing it to survive in various environments.

(504) The genome of the fungus contains genes that enable it to break down complex organic matter.

(505) The genome of Saccharomyces cerevisiae was the first eukaryotic genome to be fully sequenced.

(506) The bioinformatics expert was able to sequence the genome of the bacteria for drug discovery.

(507) Allopolyploidization can result in genome duplication and subsequent gene expression changes.

(508) The genome can help us understand why some people are better at certain sports or activities.

(509) The scientist's research on the human genome has led to new treatments for genetic disorders.

(510) The genome of the virus can be used as a tool for tracing the origin and spread of outbreaks.

(511) Lysogeny is a complex process that involves the integration of viral DNA into the host genome.

(512) Exploring the interworkings of the human genome can lead to breakthroughs in genetic research.

(513) The presence of multiple replicons in a genome can increase the efficiency of DNA replication.

(514) The hexaploid genome of the common bean has been studied extensively to improve crop breeding.

(515) James Watson's research on the human genome has led to breakthroughs in personalized medicine.

(516) As the scientist studied the arcanum of the human genome, she made groundbreaking discoveries.

(517) The bonobo genome has been sequenced, which has provided valuable insights into their biology.

(518) Reverse transcriptase is a key player in the process of viral integration into the host genome.

(519) The formation of allopolyploids can occur through hybridization followed by genome duplication.

(520) The study of amphidiploid species can provide insights into the mechanisms of genome evolution.

(521) The repair of abasic sites is crucial for maintaining genome integrity and preventing diseases.

(522) Duplications can also occur in non-coding regions of the genome, affecting regulatory elements.

(523) Entoprocts, whose genome has been sequenced, provide insight into the evolution of animal life.

(524) The genome of Saccharomyces has been extensively studied due to its importance in biotechnology.

(525) Chromatin accessibility assays can identify regions of the genome that are actively transcribed.

(526) If the nucleus contains heterochromatin, it helps regulate gene expression and genome stability.

(527) The Alu sequence is a valuable tool for studying the structure and function of the human genome.

(528) The identification of isochores has improved our understanding of genome structure and function.

(529) The scientist's treatise on the human genome was groundbreaking and led to many new discoveries.

(530) The genome of the bacteria can be altered through genetic engineering to produce desired traits.

(531) The study of replicons has led to a better understanding of DNA replication and genome evolution.

(532) The retrovirus's ability to integrate into the host cell's genome makes it difficult to eliminate.

(533) The genome of Saccharomycetes has been extensively studied due to its importance in biotechnology.

(534) The genome of brucei is highly complex, with many genes involved in its survival and reproduction.

(535) The geneticist was able to sequence the genome of the patient to identify the cause of the disease.

(536) The cosmid library contains a collection of clones that represent the entire genome of an organism.

(537) The formation of allotetraploids can occur through hybridization and subsequent genome duplication.

(538) Transposons are mobile genetic elements that can move from one location to another within a genome.

(539) The human genome contains 23 pairs of chromosomes, and each chromosome contains thousands of genes.

(540) The exome is a smaller and more manageable portion of the genome to sequence than the entire genome.

(541) The study of replicons has led to a better understanding of DNA replication and genome organization.

(542) The quiz about the human genome project will require you to explain the significance of the project.

(543) The genome of the bacteria, which is composed of DNA, is responsible for its unique characteristics.

(544) The researchers analyzed the methylated regions of the genome to understand epigenetic modifications.

(545) The genome of the amphioxus has been sequenced, providing insights into the evolution of vertebrates.

(546) Transposable elements are DNA sequences that can move from one location to another within the genome.

(547) Although the genome of the virus is small, it contains all the necessary information for replication.

(548) The codon bias in a genome can be influenced by factors such as mutation rate and selection pressure.

(549) The study of duplications in the genome can provide insights into the mechanisms of genome evolution.

(550) The coelacanth's genome has been sequenced, providing valuable insights into its evolutionary history.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Genome. They do not represent the opinions of TranslateEN.com.