Gene in a sentence

(1) The gene for red hair is rare.

(2) CF is caused by a faulty gene.

(3) My mom has a gene for curly hair.

(4) The gene for freckles is dominant.

(5) The gene mutation was spontaneous.

(6) The gene for red hair is recessive.

(7) The cistron is also known as a gene.

(8) The gene for blue eyes is recessive.

(9) Agaroses can be used in gene therapy.

(10) Diploids have two copies of each gene.

Gene sentence

(11) The gene for curly hair is hereditable.

(12) Your eye color is determined by a gene.

(13) The dominant gene determines eye color.

(14) Cytokinin can regulate gene expression.

(15) The gene mutation was linked to cancer.

(16) Superoxide can modulate gene expression.

(17) The OPG gene is located on chromosome 8.

(18) The TRP gene is located on chromosome 3.

(19) Coacervates can be used for gene therapy.

(20) Codominance is a type of gene expression.

Gene make sentence

(21) Ataxias can be managed with gene therapy.

(22) The polydactylous gene runs in my family.

(23) The gene for dimples is a dominant trait.

(24) The gene for cystic fibrosis is recessive.

(25) Auxin can alter gene expression in plants.

(26) Epistasis can be influenced by gene dosage.

(27) Diploid cells have two copies of each gene.

(28) CDNAS can be used to identify gene fusions.

(29) Asynapses can be a target for gene therapy.

(30) The gene was vectored into the plant cells.

Sentence of gene

(31) The gene for albinism is a recessive trait.

(32) Albinism is caused by a mutation in a gene.

(33) The gene mutation altered the DNA sequence.

(34) The blastodisc is a site of gene expression.

(35) The ankyrin gene is located on chromosome 8.

(36) The dominant gene determines your eye color.

(37) CF is caused by a mutation in the CFTR gene.

(38) Researchers use CDNAS to study gene networks.

(39) The gene can mutate up to create a new trait.

(40) The BRCA gene is inherited from either parent.

Gene meaningful sentence

(41) Biostatics is used to analyze gene expression.

(42) Blastogenic cells can be used in gene therapy.

(43) Scientists use CDNAS to study gene expression.

(44) The gene for Huntington's disease is dominant.

(45) Scientists can use gene editing to modify DNA.

(46) Chromosomes can be used to study gene therapy.

(47) Somatic cell gene editing is a new technology.

(48) The gene mutation was located on chromosome 7.

(49) Retrotransposons can influence gene expression.

(50) The aromatase gene is located on chromosome 15.

Gene sentence examples

(51) The gene mutation was found in a specific gene.

(52) The gene mutation caused a change in phenotype.

(53) The ribosome is a key player in gene expression.

(54) Chromatins can be used to study gene regulation.

(55) The gene for blue eyes is recessively inherited.

(56) The gene for tongue rolling is a dominant trait.

(57) Scientists aim to implant a new gene in the DNA.

(58) Allelic interactions can affect gene expression.

(59) The gene mutation occurred during cell division.

(60) The mutating gene is responsible for the disease.

Sentence with gene

(61) Peptides can be used to regulate gene expression.

(62) Pseudogenes can be used to study gene regulation.

(63) The somatostatin gene is located on chromosome 3.

(64) The basepair arrangement affects gene expression.

(65) The secretor gene is inherited from both parents.

(66) Chromosomes can be used to study gene expression.

(67) The stability of mRNA influences gene expression.

(68) The ribozyme is a promising tool for gene therapy.

(69) The crispr system allows for precise gene editing.

(70) Chromatins play a crucial role in gene expression.

Use gene in a sentence

(71) Nonprotein molecules can modulate gene expression.

(72) The pseudogene is a non-functional copy of a gene.

(73) The transfections were performed using a gene gun.

(74) Introns play a role in regulating gene expression.

(75) Agenes is caused by a mutation in a specific gene.

(76) The gene can mutate through on replication errors.

(77) The holandric gene is located on the Y chromosome.

(78) The gene for albinism affects skin and hair color.

(79) The gene for height is influenced by both parents.

(80) A mutation in a gene can cause a genetic disorder.

Sentence using gene

(81) Somatic cell gene editing raises ethical concerns.

(82) The dominant gene in this family is for blue eyes.

(83) Deuterium is used in the study of gene expression.

(84) The capsid of a virus can be used in gene therapy.

(85) Gene mutation can affect the expression of a gene.

(86) The gene mutation was responsible for the disease.

(87) The gene mutation affected the protein production.

(88) The array introns is used to study gene regulation.

(89) The plasmid is being used to study gene regulation.

(90) Tay-Sachs is caused by a mutation in the HEXA gene.

Gene example sentence

(91) Pseudogenes can arise from gene duplication events.

(92) The recessive gene for red hair runs in our family.

(93) Transcriptional activators promote gene expression.

(94) CDNAS can be used to identify gene therapy targets.

(95) The mutation in the gene resulted in a mutant gene.

(96) The gene can mutate up to cause a genetic disorder.

(97) The scientist grafted a new gene onto the bacteria.

(98) Somatic cell gene editing is a controversial topic.

(99) The dominant gene in the family was for brown eyes.

(100) The gene pool of a population can change over time.

Sentence with word gene

(101) The gene for blood type is located on chromosome 9.

(102) The axoneme is a potential target for gene therapy.

(103) The gene mutation was passed down from the parents.

(104) Ligated DNA can be used for gene expression studies.

(105) Corepressors play a crucial role in gene regulation.

(106) Nucleoproteins play a vital role in gene expression.

(107) The cationic lipid is used in gene delivery systems.

(108) The opsin gene is located on chromosome 7 in humans.

(109) A single gene mutation can cause a genetic disorder.

(110) Eukaryotes have a complex system of gene regulation.

Sentence of gene

(111) Retroviral vectors are commonly used in gene therapy.

(112) The mutating gene is passed down through generations.

(113) Ligated DNA can be used for gene cloning experiments.

(114) Ligated DNA can be used for gene editing experiments.

(115) The mutated gene was passed down through generations.

(116) Methylated DNA can have an impact on gene expression.

(117) Inactivating the gene resulted in a loss of function.

(118) Retroviruses have been used in gene therapy research.

(119) The achondroplasic gene mutation affects bone growth.

(120) The holandric gene is passed down from father to son.

Gene used in a sentence

(121) DNA microarrays can be used to study gene expression.

(122) Chromosome rearrangements can affect gene expression.

(123) The gene mutation was associated with a rare disease.

(124) Each chromo in this array represents a different gene.

(125) The regulatory gene is influenced by hormonal signals.

(126) Ligated DNA can be used for gene knockout experiments.

(127) Gene mutation can be detected through genetic testing.

(128) Gene mutation can be a driving force behind evolution.

(129) Spondylitis is often associated with the HLA-B27 gene.

(130) Introns can be used to study gene expression patterns.

Gene sentence in English

(131) Introns can be used to predict the function of a gene.

(132) BRCA gene mutations can be found in all ethnic groups.

(133) Scientists use CDNAS to study gene editing techniques.

(134) The scid gene was first identified in the early 1980s.

(135) The NR gene is responsible for regulating cell growth.

(136) The achondroplastic mutation occurs in the FGFR3 gene.

(137) Liposomal gene delivery has potential in gene therapy.

(138) Trinucleotides play a crucial role in gene expression.

(139) Mutations in the tyrosinase gene can lead to albinism.

(140) The cdna was inserted into a plasmid for gene therapy.

(141) The gene mutation was caused by exposure to radiation.

(142) The replicon gene is involved in DNA repair mechanisms.

(143) Actin is involved in the regulation of gene expression.

(144) It's time to legalize the use of gene doping in sports.

(145) Retrotransposons can be used as tools for gene therapy.

(146) The microsphere was used as a carrier for gene therapy.

(147) Transcriptional repression can silence gene expression.

(148) CDNAS can be used to identify gene regulatory elements.

(149) Chromatinic modifications can regulate gene expression.

(150) The structure of chromatins can affect gene expression.

(151) The ncle is responsible for regulating gene expression.

(152) Ribonucleosides play a crucial role in gene expression.

(153) Passaging can affect cell behavior and gene expression.

(154) The number of exons in a gene can vary between species.

(155) Mutations in the tyrosinases gene can lead to albinism.

(156) The gene for hemophilia is carried on the X chromosome.

(157) The gene for hemophilia is located on the X chromosome.

(158) The gene for Down syndrome is located on chromosome 21.

(159) The mitochondrion is able to influence gene expression.

(160) The CRISPR-Cas9 system allows for precise gene editing.

(161) The gene for baldness is more common in men than women.

(162) The gene mutation was detected through genetic testing.

(163) The gene mutation was present in all cells of the body.

(164) The genotypic analysis revealed a mutation in the gene.

(165) The homeobox gene is found in all eukaryotic organisms.

(166) The recessive gene for baldness is more common in males.

(167) Retroviral integration can disrupt host gene expression.

(168) Agaroses are often used in the study of gene expression.

(169) The structural gene is part of a larger genetic pathway.

(170) The chromosomal rearrangement resulted in a gene fusion.

(171) Biotin is involved in the regulation of gene expression.

(172) Ribose is involved in the regulation of gene expression.

(173) Dendrimers have been used as carriers for gene delivery.

(174) Corepressors are proteins that regulate gene expression.

(175) Cytogeneticists analyze the patterns of gene expression.

(176) Rett syndrome is caused by a mutation in the MECP2 gene.

(177) Mutations in the opsin gene can lead to color blindness.

(178) Ageneses can be caused by a mutation in a specific gene.

(179) Allopolyploidy can result in changes in gene expression.

(180) Amins are involved in the regulation of gene expression.

(181) The antipoles of a dominant gene are the recessive gene.

(182) The vaccinia virus is used as a vector for gene therapy.

(183) Mutations in the myod gene can lead to muscle disorders.

(184) The LDE gene has been linked to certain types of cancer.

(185) My cousin has a gene that makes her allergic to peanuts.

(186) The color of your eyes is determined by a specific gene.

(187) The gene for cystic fibrosis is located on chromosome 7.

(188) The drug resistance gene was identified in the bacteria.

(189) The inheritance of a recessive gene can be unpredictable.

(190) Adenine is involved in the regulation of gene expression.

(191) Cystic fibrosis is caused by a mutation in the CFTR gene.

(192) The protease gene mutation can lead to genetic disorders.

(193) The penetrance of the gene was found to be age-dependent.

(194) Corepressors can be recruited to specific gene promoters.

(195) Introns can be used to identify gene regulatory elements.

(196) Allotetraploidy can result in changes in gene expression.

(197) The cause of amyotonias is a mutation in a specific gene.

(198) Gene Autry's signature song was Back in the Saddle Again.

(199) The karyon is responsible for regulating gene expression.

(200) Gene-splicing has the potential to cure genetic diseases.

(201) Achondroplasia is caused by a mutation in the FGFR3 gene.

(202) Ribosomes are involved in the process of gene expression.

(203) CF can be passed down from parents who carry the CF gene.

(204) Somatic cell gene expression is regulated by epigenetics.

(205) Enantiomers can have different effects on gene expression.

(206) Mutations in the myosin gene can lead to muscle disorders.

(207) The plasmid is being used as a marker for gene expression.

(208) The eukaryote has a more advanced form of gene expression.

(209) The proinsulin gene is located on chromosome 11 in humans.

(210) Coenzyme is involved in the regulation of gene expression.

(211) Pseudogenes can be used to study the effects of gene loss.

(212) Episomes can be used to study gene expression in bacteria.

(213) The TRP gene is highly conserved across different species.

(214) The rho gene is associated with the development of cancer.

(215) Cysteine is involved in the regulation of gene expression.

(216) Biolistic bombardment is a non-viral gene delivery method.

(217) The brachylogous gene can be traced back to ancient times.

(218) Some caryotins are involved in regulating gene expression.

(219) The presence of a mutant gene can cause genetic disorders.

(220) Achondroplasias is caused by a mutation in the FGFR3 gene.

(221) Gene therapy has shown promising results in treating SCID.

(222) Eukaryotes have a more advanced system of gene regulation.

(223) Molecular biology is used in the study of gene expression.

(224) The cdna was used to study the evolution of a gene family.

(225) Retroviral gene expression is regulated by viral promoters.

(226) The regulatory gene is essential for embryonic development.

(227) Junk DNA may play a role in gene expression and regulation.

(228) The structural gene is a key component of the genetic code.

(229) The restriction fragment was used to study gene regulation.

(230) Mutations in the filaggrin gene can lead to skin disorders.

(231) Allelism can result in different levels of gene expression.

(232) The enzyme acted enzymatically to regulate gene expression.

(233) The pseudogene is a vestigial remnant of an ancestral gene.

(234) Threonine is involved in the regulation of gene expression.

(235) Biophors are involved in the regulation of gene expression.

(236) Dermatosparaxis is caused by a mutation in a specific gene.

(237) Mutations in the proaccelerin gene can cause thrombophilia.

(238) The scientist discovered a mutant gene in the DNA sequence.

(239) The genetic mutation caused the formation of a mutant gene.

(240) Adenines are involved in the regulation of gene expression.

(241) Angelman syndrome is caused by a missing or defective gene.

(242) Apyrases are involved in the regulation of gene expression.

(243) Mouse after mouse, the team discovered a new gene mutation.

(244) Somatic cell gene therapy is a promising field of research.

(245) The researchers will explore the potential of gene therapy.

(246) The cdna was used to study gene expression in cancer cells.

(247) Dendrimers have shown promise in gene delivery applications.

(248) The structural gene is translated into a functional protein.

(249) Enantiomorphs can have different effects on gene expression.

(250) OPG is a gene that encodes a protein called osteoprotegerin.

(251) Nucleosomes can be repositioned to regulate gene expression.

(252) The inducer acts as a positive regulator of gene expression.

(253) Transposons can be used as tools for studying gene function.

(254) Monogenic diseases are caused by mutations in a single gene.

(255) Point mutations can cause changes in gene expression levels.

(256) Adipocyte gene expression can be altered by dietary factors.

(257) Telomeres are involved in the regulation of gene expression.

(258) Asparagine is involved in the regulation of gene expression.

(259) Pseudogenes can be used to study gene regulation mechanisms.

(260) Introns can be used to study the evolution of gene families.

(261) The gene expression can interfere inside the genetic makeup.

(262) Avidins are important for the regulation of gene expression.

(263) Biophores are involved in the regulation of gene expression.

(264) Biotechnologists are developing new methods of gene therapy.

(265) Myotonic dystrophy is caused by a mutation in the DMPK gene.

(266) Sicklecell trait is a carrier state for the sicklecell gene.

(267) The bacteria can mutate through on horizontal gene transfer.

(268) Gene-splicing has revolutionized the field of biotechnology.

(269) The potential benefits of gene-splicing are vast and varied.

(270) Microrna plays a crucial role in regulating gene expression.

(271) Micrornas play a crucial role in regulating gene expression.

(272) Calmodulin is involved in the regulation of gene expression.

(273) The gene for Down syndrome is caused by an extra chromosome.

(274) A gene is a segment of DNA that carries genetic information.

(275) The gene that codes for insulin is located on chromosome 11.

(276) The gene for color blindness is located on the X chromosome.

(277) The dominant gene was responsible for the child's eye color.

(278) Ribosomes are involved in the regulation of gene expression.

(279) The HOX gene family is a well-known group of homeobox genes.

(280) Blastomeric cells exhibit dynamic changes in gene expression.

(281) Amphiploidies can result in altered gene expression patterns.

(282) Mutations in the lyase gene can result in inherited diseases.

(283) The genomic analysis revealed a novel gene involved in aging.

(284) The prepotent gene determined the eye color of the offspring.

(285) Epistasis can be influenced by the timing of gene expression.

(286) The homeobox is often referred to as the master control gene.

(287) The replicon gene is a target for antiviral drug development.

(288) The transfections were successful in achieving gene knockout.

(289) The mutated gene was responsible for a rare genetic disorder.

(290) Epigenetic mechanisms play a crucial role in gene regulation.

(291) The recessive gene was responsible for the child's blue eyes.

(292) Transduction is an important tool for studying gene function.

(293) The presence of an inducer molecule triggers gene expression.

(294) Inactivating the gene disrupted the normal cellular function.

(295) Carboxylase is involved in the regulation of gene expression.

(296) Triploid organisms can have altered gene expression patterns.

(297) Retroviruses can be used as vectors in gene delivery systems.

(298) The team transfected the nematodes with a gene for longevity.

(299) The repressor gene is silenced in certain disease conditions.

(300) The gene of interest spans several kilobases on chromosome 5.

(301) The brachylogous gene can be linked to certain health issues.

(302) The mutant gene was passed down from the parent to the child.

(303) Ribozymes are important in the regulation of gene expression.

(304) The represser was used to control the expression of the gene.

(305) Mutations in the nuclease gene can lead to genetic disorders.

(306) Adenylates are involved in the regulation of gene expression.

(307) The allotypically conserved genes were used for gene therapy.

(308) Aequorin is often used as a reporter gene in genetic studies.

(309) The heterologous virus was used as a vector for gene therapy.

(310) Mutations in the holandric gene can lead to male infertility.

(311) Isochores have been linked to gene expression and regulation.

(312) The cecropin gene has been identified in many insect species.

(313) The mutant gene was responsible for the rare genetic disease.

(314) RNS is a powerful tool for studying gene expression patterns.

(315) Genetic disorders can sometimes be treated with gene therapy.

(316) A gene pool is the total collection of genes in a population.

(317) Somatic cell gene therapy is still in the experimental stage.

(318) The gene for Alzheimer's disease is located on chromosome 19.

(319) Scientists are still studying the function of the BRCA1 gene.

(320) The genetic disorder is inherited through the recessive gene.

(321) Allosteric regulation can be used to control gene expression.

(322) The study of gene mutation is an important aspect of biology.

(323) The scientist discovered an aberrant gene in the DNA sequence.

(324) Mutations in the gene encoding synthetase can lead to disease.

(325) The kilobases array is used to study gene expression patterns.

(326) The array named introns holds data related to gene expression.

(327) Scientists are using the plasmid as a vector for gene therapy.

(328) Pyrimidines are involved in the regulation of gene expression.

(329) The scientist will graft in a new gene to modify the organism.

(330) Splicing is a technique that is used to study gene expression.

(331) Nucleosomes play a crucial role in regulating gene expression.

(332) The penetrance of the gene was influenced by hormonal factors.

(333) Polyploid organisms can have altered gene expression patterns.

(334) Corepressors can act as molecular switches in gene regulation.

(335) The activity of RNA polymerase is crucial for gene expression.

(336) The colourpoint's coat color is determined by a specific gene.

(337) The monosome is involved in the regulation of gene expression.

(338) Polymerases are involved in the regulation of gene expression.

(339) Mutations in the telomerase gene can lead to various diseases.

(340) The researchers transfected the mice with a gene-editing tool.

(341) They transfected the bacteria with a fluorescent protein gene.

(342) Isoprenoids are involved in the regulation of gene expression.

(343) Mutations in the kallikrein gene can lead to certain diseases.

(344) The intercellular signaling pathways regulate gene expression.

(345) The colourblindness gene is more common in males than females.

(346) The repressor acts as a negative regulator of gene expression.

(347) Retroelements can be used as tools for studying gene function.

(348) The recessive gene for dwarfism can result in shorter stature.

(349) The gene that codes for saccharase is located on chromosome 3.

(350) Nonpathogenic viruses are often used in gene therapy research.

(351) The nucleole is involved in the regulation of gene expression.

(352) The operator gene acts as a switch that turns genes on or off.

(353) The scientist will engraft the new gene onto the existing DNA.

(354) Chromomeres are involved in the regulation of gene expression.

(355) The circularized plasmid was used for gene expression studies.

(356) Isochores can be used to study the evolution of gene families.

(357) Methylators play a crucial role in regulating gene expression.

(358) The mutant gene was passed down from generation to generation.

(359) The mutation inactivates the gene, causing a loss of function.

(360) Nucleotides are involved in the regulation of gene expression.

(361) Some people have a gene that makes them more prone to sunburn.

(362) Genetic disorders can be caused by mutations in a single gene.

(363) The curative possibilities of gene therapy are being explored.

(364) The agn gene is responsible for the production of agn protein.

(365) If you have a certain gene, you may be predisposed to obesity.

(366) Aneuploid organisms may have altered gene expression patterns.

(367) Transcription factors bind to DNA to regulate gene expression.

(368) The homeobox gene is a target of many developmental disorders.

(369) The recessive gene for hemoglobin S causes sickle cell disease.

(370) The acentric chromosome can result in abnormal gene expression.

(371) Cofactors can participate in the regulation of gene expression.

(372) The mutant gene caused the fish to have a unique color pattern.

(373) The plasmid contains a gene that confers antibiotic resistance.

(374) The presence of transcriptase indicates active gene expression.

(375) Mutations in the lyase gene can lead to severe health problems.

(376) The eukaryote has a more sophisticated form of gene regulation.

(377) The mutating gene is responsible for the development of cancer.

(378) The nucleolus is involved in the regulation of gene expression.

(379) NCC is an important gene involved in the development of cancer.

(380) Messenger RNA is involved in the regulation of gene expression.

(381) Mutations in the polymerase gene can lead to genetic disorders.

(382) The germ layer cells exhibit distinct gene expression patterns.

(383) The nucleoli are involved in the regulation of gene expression.

(384) Gene mutation can lead to the development of genetic disorders.

(385) The gene mutation affected the organism's ability to reproduce.

(386) Mutations in the structural gene can lead to genetic disorders.

(387) The protease gene is highly conserved across different species.

(388) The chromatid is involved in the regulation of gene expression.

(389) The penetrance of the gene was higher in certain ethnic groups.

(390) Mutations in the tropomyosin gene can lead to muscle disorders.

(391) Mutations in the synthase gene can lead to metabolic disorders.

(392) It is necessary to clone this gene during the genetic research.

(393) Aspartic acid is involved in the regulation of gene expression.

(394) Polypeptides can interact with DNA to regulate gene expression.

(395) Topoisomerase is involved in the regulation of gene expression.

(396) Biochemicals are involved in the regulation of gene expression.

(397) SOD1 is a gene that codes for copper-zinc superoxide dismutase.

(398) The recessive gene for color blindness is more common in males.

(399) The recessive gene for hemophilia can cause excessive bleeding.

(400) The removal of introns is an essential step in gene expression.

(401) Genetic testing can determine if someone carries the BRCA gene.

(402) Pycnodysostosis is caused by mutations in the cathepsin K gene.

(403) Acrocentrics are involved in the regulation of gene expression.

(404) Anticodons are important for the regulation of gene expression.

(405) The gene-pool of a population can be affected by genetic drift.

(406) The heteroduplex DNA can be used for gene therapy applications.

(407) Heterozygotes have two different alleles for a particular gene.

(408) Microinjection is a powerful tool for studying gene expression.

(409) Hyperploid cells can result in an imbalance of gene expression.

(410) The permeabilized tissue was used for gene expression analysis.

(411) The location of exons within a gene can affect gene expression.

(412) The catalast gene has been linked to certain genetic disorders.

(413) The mutation in the gene caused the formation of a mutant gene.

(414) The permeabilized cells were used for gene expression analysis.

(415) Tetramers play a key role in the regulation of gene expression.

(416) Exons play a crucial role in the regulation of gene expression.

(417) The gene for lactose intolerance is common in some populations.

(418) CF is caused by a faulty gene that is passed down from parents.

(419) The gene for intelligence is still being studied by scientists.

(420) Eukaryotic cells have a more complex system of gene regulation.

(421) Mitochondria are involved in the regulation of gene expression.

(422) The gene responsible for eye color is located on chromosome 15.

(423) The gene for muscular dystrophy is located on the X chromosome.

(424) The gene for breast cancer can be inherited from either parent.

(425) The cytoplasm is involved in the regulation of gene expression.

(426) Somatic gene therapy is being researched for genetic disorders.

(427) Allelic complementation can restore function to a mutated gene.

(428) Allopatric isolation can prevent gene flow between populations.

(429) The cloner was used to create multiple copies of the same gene.

(430) The gene mutation was responsible for the resistance to a drug.

(431) These activators are responsible for turning on gene expression.

(432) The presence of a recessive gene can sometimes skip generations.

(433) The plasmid is being used to study the effects of gene knockout.

(434) Bayesian networks can be used to model gene regulatory networks.

(435) The homeobox sequence is typically located within a larger gene.

(436) The replicon gene is a target for cancer research and treatment.

(437) Octamer binding proteins play a crucial role in gene regulation.

(438) Scientists are studying the effects of the mutated gene on mice.

(439) Gene mutation can result in the production of abnormal proteins.

(440) The researcher is trying to pinpoint the specific gene mutation.

(441) Isolating a specific gene sequence can assist in DNA sequencing.

(442) Pseudogenes can be used to study the evolution of gene families.

(443) The transcriptome can be used to study gene expression dynamics.

(444) Ribozymes have been used to manipulate gene expression in cells.

(445) The mixing of different dog breeds can mongrelize the gene pool.

(446) Gene therapy is a promising avenue in the realm of therapeutics.

(447) Allopatry can lead to the loss of gene flow between populations.

(448) BRCA gene mutations can be detected through a simple blood test.

(449) If the nucleus contains chromatin, it regulates gene expression.

(450) The gene mutations can interfere beyond the individual organism.

(451) We need to calibrate ahead for precise gene expression analysis.

(452) The biolistics technique is a non-viral method of gene delivery.

(453) Chromatins can be modified by enzymes to affect gene expression.

(454) Monochromatism can be inherited from parents who carry the gene.

(455) The diversity of the gene-pool in this population is remarkable.

(456) The ethical implications of gene-splicing are a topic of debate.

(457) The use of gene-splicing in medicine is a rapidly growing field.

(458) The holandric gene is linked to the expression of male hormones.

(459) The demethylation of DNA can lead to changes in gene expression.

(460) The intragenic recombination led to the formation of a new gene.

(461) Gene-therapy is a promising new treatment for genetic disorders.

(462) Pycnodysostosis is caused by a mutation in the cathepsin K gene.

(463) The exon is a crucial part of the gene that codes for a protein.

(464) Exons can be identified by analyzing the DNA sequence of a gene.

(465) Some people have a gene that makes them more likely to get sick.

(466) The dominant gene determines the physical traits of an organism.

(467) The scientist is studying the effects of a single gene mutation.

(468) The scientist discovered a new gene mutation using the DNA chip.

(469) Somatic cell gene editing is a controversial topic in bioethics.

(470) Understanding gene mutation is crucial in the field of genetics.

(471) The karyolymph is involved in the regulation of gene expression.

(472) The homeobox gene plays a crucial role in embryonic development.

(473) In vivo gene therapy has the potential to cure genetic diseases.

(474) The recessive gene for hemophilia can lead to excessive bleeding.

(475) The recessive gene for Marfan syndrome affects connective tissue.

(476) The plasmid is being used to study the effects of gene silencing.

(477) Transcriptional enhancers play a crucial role in gene activation.

(478) The genomic data revealed a new gene associated with the disease.

(479) The genomic data revealed a complex network of gene interactions.

(480) Spinal muscular atrophy is caused by a mutation in the SMN1 gene.

(481) ACG is a sequence that can be used to identify a particular gene.

(482) The presence of GCT in a DNA sequence can affect gene expression.

(483) The x-linked gene is located on the long arm of the X chromosome.

(484) The regulatory gene is highly conserved across different species.

(485) Certain medications can increase the likelihood of gene mutation.

(486) The duplication of this gene has been linked to certain diseases.

(487) The structural gene is highly conserved across different species.

(488) The structural gene is transcribed into a primary RNA transcript.

(489) Epigenetics is the study of heritable changes in gene expression.

(490) The recessive gene was responsible for the individual's red hair.

(491) Acrocentric individuals have a unique pattern of gene expression.

(492) Transduction is a powerful tool for manipulating gene expression.

(493) The penetrance of the gene was confirmed through genetic testing.

(494) Mutations in the hexokinase gene can lead to metabolic disorders.

(495) Activation of receptors can result in changes in gene expression.

(496) Chromatins can undergo modifications that affect gene expression.

(497) Chromatins can be isolated and analyzed to study gene regulation.

(498) The TRP gene mutation is associated with certain types of cancer.

(499) The team transfected the bacteria with a gene for biodegradation.

(500) The inherited disease is caused by a mutation in a specific gene.

(501) Biolistic gene transfer is a promising approach for gene therapy.

(502) Morphogens are signaling molecules that regulate gene expression.

(503) The oligonucleotide sequence was used to create a synthetic gene.

(504) Acrasins are known to regulate gene expression in some organisms.

(505) Antigenes can be used in gene therapy to treat genetic disorders.

(506) The epigenome plays a crucial role in regulating gene expression.

(507) The exogenously introduced gene altered the organism's phenotype.

(508) Polylysine can be used as a gene delivery vector in gene therapy.

(509) The researchers discovered a xenogenous gene in the DNA sequence.

(510) The gene that codes for enterokinase is located on chromosome 21.

(511) The advent of gene editing is changing the way we treat diseases.

(512) Evolutionary changes can be caused by genetic drift or gene flow.

(513) Scientists can use gene editing to change the DNA of an organism.

(514) Alpha centaurin is involved in the regulation of gene expression.

(515) The process of gene expression is how genes are turned on or off.

(516) The sickle cell gene is more common in people of African descent.

(517) The gene editing tool CRISPR has revolutionized genetic research.

(518) If you have a certain gene, you may be predisposed to alcoholism.

(519) Capsids can be modified to create viral vectors for gene therapy.

(520) Homeobox genes are involved in the regulation of gene expression.

(521) The gene mutation was inherited in an autosomal dominant pattern.

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

(523) The homeobox gene is highly conserved across different organisms.

(524) The recessive gene for blue eyes is present in both of my parents.

(525) The recessive gene for albinism affects the production of melanin.

(526) The presence of a recessive gene can be masked by a dominant gene.

(527) The ribozyme is a key player in the regulation of gene expression.

(528) Mutations in the transcriptase gene can lead to genetic disorders.

(529) The x chromosome is involved in the regulation of gene expression.

(530) The sequence ACG is involved in the regulation of gene expression.

(531) Conjugative plasmids are responsible for horizontal gene transfer.

(532) Mutations in the regulatory gene can lead to abnormal development.

(533) Mutations in the topoisomerase gene can lead to genetic disorders.

(534) The researcher discovered a new gene associated with osteogenesis.

(535) The researcher discovered a new pathological mutation in the gene.

(536) Outbreeding can help maintain a healthy gene pool in a population.

(537) The gene responsible for producing gelatinase has been identified.

(538) The acetyl group is involved in the regulation of gene expression.

(539) The transcriptome can be used to study gene regulation mechanisms.

(540) The inducer concentration determines the level of gene expression.

(541) We can use the exons array to determine the structure of the gene.

(542) Mutations in the thyroglobulin gene can lead to thyroid disorders.

(543) The packaging of DNA into chromatins helps regulate gene activity.

(544) Polynucleotides are involved in the regulation of gene expression.

(545) Polynucleotides can be used as therapeutic agents in gene therapy.

(546) The movement of retroelements can sometimes disrupt gene function.

(547) BRCA gene mutations are relatively rare in the general population.

(548) The chromatinic structure of DNA is important for gene expression.

(549) The chromograms were used to create a heat map of gene expression.

(550) Mutations in the pyrin gene can lead to autoinflammatory diseases.

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