Gene Expression in a sentence

(1) Cytokinin can regulate gene expression.

(2) Superoxide can modulate gene expression.

(3) Codominance is a type of gene expression.

(4) Auxin can alter gene expression in plants.

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

(6) Biostatics is used to analyze gene expression.

(7) Scientists use CDNAS to study gene expression.

(8) Retrotransposons can influence gene expression.

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

(10) Allelic interactions can affect gene expression.

Gene Expression sentence

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

(12) The basepair arrangement affects gene expression.

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

(14) The stability of mRNA influences gene expression.

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

(16) Nonprotein molecules can modulate gene expression.

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

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

(19) Transcriptional activators promote gene expression.

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

Gene Expression make sentence

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

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

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

(24) Chromosome rearrangements can affect gene expression.

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

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

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

(28) Transcriptional repression can silence gene expression.

(29) Chromatinic modifications can regulate gene expression.

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

Sentence of gene expression

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

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

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

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

(35) Retroviral integration can disrupt host gene expression.

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

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

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

(39) Corepressors are proteins that regulate gene expression.

(40) Cytogeneticists analyze the patterns of gene expression.

Gene Expression meaningful sentence

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

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

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

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

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

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

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

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

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

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

Gene Expression sentence examples

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

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

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

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

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

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

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

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

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

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

Sentence with gene expression

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

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

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

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

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

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

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

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

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

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

Use gene expression in a sentence

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

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

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

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

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

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

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

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

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

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

Sentence using gene expression

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

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

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

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

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

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

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

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

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

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

Gene Expression example sentence

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

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

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

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

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

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

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

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

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

(100) The intercellular signaling pathways regulate gene expression.

Sentence with word gene expression

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

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

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

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

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

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

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

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

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

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

Sentence of gene expression

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

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

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

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

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

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

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

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

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

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

Gene Expression used in a sentence

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

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

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

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

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

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

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

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

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

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

Gene Expression sentence in English

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

(161) Ribonucleic acid is involved in the regulation of gene expression.

(162) The transcription factor oligomerizes to regulate gene expression.

(163) The chromatoid is important for the regulation of gene expression.

(164) The biochemist designed a new experiment to study gene expression.

(165) Phosphorylated proteins are involved in regulating gene expression.

(166) Transcriptional regulation plays a crucial role in gene expression.

(167) The protease gene expression is upregulated during times of stress.

(168) Nucleotides can be modified by enzymes to regulate gene expression.

(169) Electrophoresis is a key technique in the study of gene expression.

(170) Pseudogenes can be used to study the mechanisms of gene expression.

(171) Researchers often rely on the exons array to study gene expression.

(172) Nonprotein coding genes are involved in regulating gene expression.

(173) The perinuclear region is important for regulating gene expression.

(174) The repressor protein binds to the DNA, preventing gene expression.

(175) Epistasis can result in the alteration of gene expression patterns.

(176) The biolistic method is a useful tool for studying gene expression.

(177) Cocarboxylases are important for the regulation of gene expression.

(178) Morphogens can activate or repress gene expression in target cells.

(179) The nucleoprotein is involved in the regulation of gene expression.

(180) The mitochondrion is involved in the regulation of gene expression.

(181) The tetraploid state can result in altered gene expression patterns.

(182) The restriction fragment was used to study gene expression patterns.

(183) The carboxyl group is involved in the regulation of gene expression.

(184) The intercellular signaling molecules can influence gene expression.

(185) The metabolite was shown to have a direct effect on gene expression.

(186) The geneticist will inject mice with genes to study gene expression.

(187) Noncoding mutations can have significant effects on gene expression.

(188) Transposable elements can cause mutations and alter gene expression.

(189) Introns can contain regulatory elements that affect gene expression.

(190) The cdna was used to study the effects of a drug on gene expression.

(191) The absence of corepressors can lead to uncontrolled gene expression.

(192) RNA polymerase plays a key role in the regulation of gene expression.

(193) Polyamines have been implicated in the regulation of gene expression.

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

(195) Introns can be used to study the effects of aging on gene expression.

(196) Introns can be used to study the effects of drugs on gene expression.

(197) Repressors are proteins that bind to DNA and prevent gene expression.

(198) Mutations in the regulator gene can lead to abnormal gene expression.

(199) The operator gene plays a crucial role in regulating gene expression.

(200) The chromogram showed a clear pattern of gene expression in the cell.

(201) Phosphorylating is a common mechanism for regulating gene expression.

(202) Aleuronic proteins are involved in the regulation of gene expression.

(203) The nucleolar stress response can lead to changes in gene expression.

(204) Nucleosides play a crucial role in the regulation of gene expression.

(205) The process of gene expression determines which traits are expressed.

(206) Nucleotides play a crucial role in the regulation of gene expression.

(207) The carboxyl group is important in the regulation of gene expression.

(208) Conjugated proteins are involved in the regulation of gene expression.

(209) Researchers are studying the effects of abasic DNA on gene expression.

(210) ACG is a sequence that is transcribed into RNA during gene expression.

(211) Restriction enzymes are often used in the analysis of gene expression.

(212) Epigenetic studies have shown the impact of stress on gene expression.

(213) The presence of catabolite activator protein enhances gene expression.

(214) The isoforms show differential gene expression in response to stimuli.

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

(216) Nucleating proteins are involved in the regulation of gene expression.

(217) Polypeptides play a crucial role in the regulation of gene expression.

(218) Researchers are studying the role of dinucleotides in gene expression.

(219) Myod is involved in the regulation of muscle-specific gene expression.

(220) Repressors play a crucial role in regulating gene expression in cells.

(221) The DNA sequence was permuted to study the effects on gene expression.

(222) The process of methylating the DNA molecule can alter gene expression.

(223) RNA polymerase is essential for gene expression and cellular function.

(224) Noncoding RNA molecules can act as decoys to regulate gene expression.

(225) Deoxyribonucleotides are involved in the regulation of gene expression.

(226) Intranuclear signaling pathways play a crucial role in gene expression.

(227) The inhibitory action of certain proteins can regulate gene expression.

(228) Epigenesis can result in heritable changes in gene expression patterns.

(229) The nucleoplasm plays a crucial role in gene expression and regulation.

(230) Researchers are studying the effects of acetylation on gene expression.

(231) Introns can contain regulatory elements that influence gene expression.

(232) The presence of Alu elements can affect gene expression and regulation.

(233) GFP is commonly used in genetic engineering to monitor gene expression.

(234) The release of calcium from the nucleus is involved in gene expression.

(235) Researchers are studying the function of the plasmid in gene expression.

(236) Monophosphate plays a crucial role in the regulation of gene expression.

(237) Amplification is a crucial step in the amplification of gene expression.

(238) Essential amino acids are involved in the regulation of gene expression.

(239) Nitric oxide is a signaling molecule that can influence gene expression.

(240) The sumoylated protein is involved in the regulation of gene expression.

(241) Chromatins can be modified by chemical tags that affect gene expression.

(242) Retroviral integration can disrupt normal gene expression in host cells.

(243) Reverse transcribe the mRNA into cDNA to study gene expression patterns.

(244) Repressors can interact with other proteins to regulate gene expression.

(245) Superhelical DNA can also play a role in gene expression and regulation.

(246) The gene expression of an organism can be influenced by its environment.

(247) Adp is a molecule that is involved in the regulation of gene expression.

(248) The phosphorylation of histones with kinases can affect gene expression.

(249) The regulation of gene expression is often controlled transcriptionally.

(250) Transfections can be used to study gene expression and protein function.

(251) Mutations in introns can affect gene expression and splicing efficiency.

(252) Karyolymph, which is rich in enzymes, helps to regulate gene expression.

(253) Zinc is involved in the regulation of gene expression and cell signaling.

(254) Geneticists study the impact of environmental factors on gene expression.

(255) The regulatory gene is a key player in the regulation of gene expression.

(256) The sigmoid function is used in genetics to model gene expression levels.

(257) The packaging of chromatin affects gene expression and cellular identity.

(258) Corepressors can interact with co-repressors to regulate gene expression.

(259) The exons array is a powerful tool for studying gene expression patterns.

(260) Polynucleotides play a crucial role in the regulation of gene expression.

(261) Cloning through the modification of gene expression is a complex process.

(262) Transcriptional enhancers are DNA sequences that enhance gene expression.

(263) Mutations in repressors can lead to abnormal gene expression and disease.

(264) The study aimed to identify allotypic differences in the gene expression.

(265) Retinoic acid can help regulate gene expression and cell differentiation.

(266) Extranuclear factors can influence gene expression and cellular function.

(267) DNA microarrays are tools used to study gene expression on a large scale.

(268) Calcium-binding proteins are also involved in regulating gene expression.

(269) Researchers are studying the function of dinucleotides in gene expression.

(270) The regulatory gene is tightly regulated to ensure proper gene expression.

(271) The diploid number of chromosomes is important for proper gene expression.

(272) Adipogenic gene expression is dysregulated in certain metabolic disorders.

(273) Frameshift mutations can disrupt the normal regulation of gene expression.

(274) Scientists are using the replicons in this array to study gene expression.

(275) The blastomere can be manipulated to study the effects of gene expression.

(276) Ribonucleotides can be enzymatically modified to regulate gene expression.

(277) Eukaryotic cells have a variety of mechanisms to regulate gene expression.

(278) Chromosomes can be used to study environmental factors on gene expression.

(279) Uracil is involved in the regulation of gene expression in some organisms.

(280) The function of methylase is essential for gene expression and regulation.

(281) Methylase is a key player in the epigenetic regulation of gene expression.

(282) Polynucleotides play a critical role in the regulation of gene expression.

(283) The DNA sequence can demethylate into a different gene expression pattern.

(284) Researchers are investigating the role of dinucleotides in gene expression.

(285) The maturation of ameloblasts is accompanied by changes in gene expression.

(286) Epigenetic modifications can alter chromatin structure and gene expression.

(287) Pseudogenes can be used to study the evolution of gene expression patterns.

(288) The acetylative mechanism is involved in the regulation of gene expression.

(289) Allotetraploidization can lead to changes in gene expression and phenotype.

(290) Osteogenetic gene expression is regulated by various transcription factors.

(291) The interindividual variation in gene expression was observed in the study.

(292) The phosphorylated protein is involved in the regulation of gene expression.

(293) The acrocentric chromosome is involved in the regulation of gene expression.

(294) Chromomeres are thought to be involved in the regulation of gene expression.

(295) Ribosomes are involved in the process of translation during gene expression.

(296) The structural gene is transcribed by RNA polymerase during gene expression.

(297) Corepressors can be involved in feedback loops to fine-tune gene expression.

(298) Episomes can be used to study the regulation of gene expression in bacteria.

(299) Chondroblast differentiation is a complex process involving gene expression.

(300) Deoxyribonucleotides can be modified by enzymes to regulate gene expression.

(301) The researchers sequenced a region of 20 kilobases to study gene expression.

(302) The nucleosome structure plays a crucial role in regulating gene expression.

(303) Researchers use endonuclease to study genetic mutations and gene expression.

(304) Aleuronic cells are involved in the regulation of gene expression in plants.

(305) The macronucleus is responsible for controlling gene expression in ciliates.

(306) The study found that the segregants had different levels of gene expression.

(307) The cdna was used to study the regulation of gene expression in development.

(308) Transfected cells were observed under a microscope to assess gene expression.

(309) Gel electrophoresis is a technique that can be used to study gene expression.

(310) Chromatins can be modified by enzymes to activate or repress gene expression.

(311) The carboxylating reaction is important in the regulation of gene expression.

(312) The circularizers were used to create a circular plasmid for gene expression.

(313) Myc- transcription factors are involved in the regulation of gene expression.

(314) The modulatory role of the protein in gene expression is still being studied.

(315) Mutations in the operator gene can lead to abnormal gene expression patterns.

(316) Eukaryotic cells have a variety of mechanisms for regulating gene expression.

(317) The dimerization of certain transcription factors can affect gene expression.

(318) The karyolymph was transfected, and the gene expression was analyzed by qPCR.

(319) Translocation is an important mechanism for the regulation of gene expression.

(320) The plasmid is being used to study the role of epigenetics in gene expression.

(321) ACG is a sequence that can be modified to enhance or suppress gene expression.

(322) The viroid's RNA molecule can interfere with the host plant's gene expression.

(323) The nuclei of plant cells regulate gene expression for growth and development.

(324) The geneticist studied the impact of environmental factors on gene expression.

(325) Adipogenic gene expression can be influenced by various environmental factors.

(326) Ribozymes have been found to play a role in the regulation of gene expression.

(327) The binding of corepressors to transcription factors inhibits gene expression.

(328) Restriction endonuclease is an essential tool in the study of gene expression.

(329) The regulator gene can be used to manipulate gene expression in biotechnology.

(330) The distribution of chromomeres along a chromosome can affect gene expression.

(331) Homeotic proteins bind to DNA and regulate gene expression during development.

(332) The inactivations of certain transcription factors can affect gene expression.

(333) The use of cell-free extracts has revolutionized the study of gene expression.

(334) The gene expression was differentially regulated in response to the treatment.

(335) The introns array is a valuable resource for studying gene expression patterns.

(336) The regulation of RNA replication is essential for controlling gene expression.

(337) Intranuclear interactions between proteins can modulate gene expression levels.

(338) Mutations in the restriction site can lead to altered gene expression patterns.

(339) The restriction site plays a crucial role in the regulation of gene expression.

(340) The sigmoidal pattern of gene expression is regulated by transcription factors.

(341) Transcriptional profiling allows researchers to study gene expression patterns.

(342) Transcriptional factors can recruit other proteins to regulate gene expression.

(343) The auxinic pathway is involved in the regulation of gene expression in plants.

(344) The biotroph's ability to manipulate its host's gene expression is fascinating.

(345) Histidines are involved in the regulation of gene expression in some organisms.

(346) The kinase phosphorylates the transcription factor to regulate gene expression.

(347) The extranuclear DNA is responsible for regulating gene expression in the cell.

(348) Flavin-containing proteins are important for the regulation of gene expression.

(349) The superfamily of transcription factors regulates gene expression in the body.

(350) The double strand is transcribed into RNA during the process of gene expression.

(351) Multivariate analysis is used in bioinformatics to analyze gene expression data.

(352) The mRNA molecule is transcribed from DNA during the process of gene expression.

(353) Phytohormones can induce changes in gene expression to regulate plant responses.

(354) Dedifferentiation is a complex process that involves changes in gene expression.

(355) Restriction enzymes are crucial for the study of gene expression and regulation.

(356) To analyze gene expression, researchers often reverse transcribe mRNA into cDNA.

(357) Transcriptional control mechanisms ensure precise regulation of gene expression.

(358) The double-stranded DNA molecule is transcribed into RNA during gene expression.

(359) The geneticist will inject genes into the mouse's back to study gene expression.

(360) The geneticist will inject the mouse's back with genes to study gene expression.

(361) Gene expression can be influenced by factors such as diet, exercise, and stress.

(362) The dimerization of transcription factors can regulate gene expression in cells.

(363) Epigenetically induced changes in gene expression can have long-lasting effects.

(364) The exon-intron structure of a gene is important for regulating gene expression.

(365) The biokernel program allows for the identification of gene expression patterns.

(366) The introns array is crucial for understanding the complexity of gene expression.

(367) Transcriptional factors can interact with each other to modulate gene expression.

(368) The blastomeres have distinct gene expression patterns that determine their fate.

(369) Corepressors can mediate the effects of environmental stimuli on gene expression.

(370) Transfecting cells with siRNA can be used to knock down specific gene expression.

(371) To study gene expression, researchers transfect cells with a fluorescent protein.

(372) Transcriptional factors can interact with each other to regulate gene expression.

(373) The fluorochrome-labeled oligonucleotides were used for gene expression analysis.

(374) The conformational changes of the RNA molecule are essential for gene expression.

(375) The gene expression levels were normalized to account for experimental variation.

(376) The biolistics approach has been used to study the regulation of gene expression.

(377) Repressors can be targeted by drugs to alter gene expression in certain diseases.

(378) The epigenic changes in the DNA were responsible for the altered gene expression.

(379) The demethylation of histones can affect chromatin structure and gene expression.

(380) Myod binds to specific DNA sequences to activate muscle-specific gene expression.

(381) The autoradiogram revealed the pattern of gene expression in a particular tissue.

(382) The flagellum is involved in the regulation of gene expression in some organisms.

(383) The cdna was reverse transcribed from RNA, and then analyzed for gene expression.

(384) Duplications can cause changes in gene expression, leading to altered phenotypes.

(385) The pluripotent state is maintained through a delicate balance of gene expression.

(386) The degradation of mRNA is an important mechanism for controlling gene expression.

(387) The discovery of mRNA has provided a foundation for understanding gene expression.

(388) Spectrometers are employed in the field of genetics for analyzing gene expression.

(389) The binding of adenosine diphosphate to its receptor can modulate gene expression.

(390) Researchers are studying the transcriptome to understand gene expression patterns.

(391) The production of phytoalexins is often accompanied by changes in gene expression.

(392) Ribozyme-mediated RNA cleavage is a key step in the regulation of gene expression.

(393) Transducing DNA sequences into RNA molecules is a crucial step in gene expression.

(394) The operator gene is a target for many drugs that aim to regulate gene expression.

(395) Epigenetically mediated changes in chromatin structure can affect gene expression.

(396) The isoforms of the transcription factor had different effects on gene expression.

(397) The autotetraploid condition can lead to changes in gene expression and phenotype.

(398) Autotetraploids can exhibit altered gene expression compared to diploid organisms.

(399) CDNA can be used to study the effects of environmental factors on gene expression.

(400) The infolding of the nuclear membrane is important for regulating gene expression.

(401) The transfection of reporter genes allows for the visualization of gene expression.

(402) Ectoblast cells have a unique gene expression profile compared to other cell types.

(403) Transcriptional factors bind to specific DNA sequences to initiate gene expression.

(404) The discovery of transcriptase revolutionized our understanding of gene expression.

(405) The role of zinc in regulating gene expression is well-documented among biologists.

(406) The discovery of messenger RNA revolutionized our understanding of gene expression.

(407) The phenotypic traits of an organism can be influenced by gene expression patterns.

(408) The researcher is investigating how certain chemicals can modulate gene expression.

(409) The mitochondrion is able to influence cell signaling pathways and gene expression.

(410) The sequencing of RNA molecules can provide insights into gene expression patterns.

(411) The researchers investigated the impact of polymorphisms on gene expression levels.

(412) The pyrimidine nucleoside uridine is involved in the regulation of gene expression.

(413) Epigenetic studies have shown the impact of environmental toxins on gene expression.

(414) Glutathione is involved in the regulation of cellular processes and gene expression.

(415) Zinc is involved in regulating gene expression beyond its role in protein synthesis.

(416) Reverse transcribe the mRNA into cDNA to examine gene expression patterns in detail.

(417) Proteolytic processing of proteins is crucial for the regulation of gene expression.

(418) The geneticist will inject mice with viral vectors to study gene expression in vivo.

(419) Blotting is a critical step in the analysis of gene expression and protein function.

(420) The location of nucleoids within the cell can affect gene expression and regulation.

(421) The study of amphiploidies can help us understand the mechanisms of gene expression.

(422) Deuterostomes have a unique pattern of gene expression during embryonic development.

(423) The kinetoplast DNA is involved in the regulation of gene expression in trypanosomes.

(424) The transcriptome analysis showed changes in gene expression under stress conditions.

(425) The phenome can be influenced by epigenetic modifications that alter gene expression.

(426) The physiologist is studying the effects of environmental factors on gene expression.

(427) Ribozyme has been used to study the role of RNA in the regulation of gene expression.

(428) Transcriptional control is essential for maintaining tissue-specific gene expression.

(429) The double-stranded structure of DNA is essential for gene expression and regulation.

(430) Introns can be used to study the effects of environmental factors on gene expression.

(431) The oligomeric complex was found to be involved in the regulation of gene expression.

(432) The interindividual variability in gene expression was analyzed using RNA sequencing.

(433) Repressors are just one of many mechanisms that cells use to control gene expression.

(434) The geneticist identified a heterotopic gene expression pattern in the patient's DNA.

(435) Macronuclear reorganization in ciliates is accompanied by changes in gene expression.

(436) CDNA can be used to study the regulation of gene expression by transcription factors.

(437) Allosterically regulated enzymes can be involved in the regulation of gene expression.

(438) Diacylglycerol is involved in the regulation of gene expression in certain cell types.

(439) Epigenetic studies have shown the impact of early life experiences on gene expression.

(440) Researchers are using epigenetics to explore the role of nutrition in gene expression.

(441) The activity of RNA polymerase is tightly controlled to ensure proper gene expression.

(442) Alpha-tocopherol is involved in the regulation of gene expression and immune function.

(443) The spatiotemporal patterns of gene expression determine the development of organisms.

(444) The repressor protein forms a complex with other proteins to regulate gene expression.

(445) She analyzed the gene expression in the gill during the immune response of the salmon.

(446) Scientists have discovered that pseudogenes play a role in regulating gene expression.

(447) The nucleosome structure can be altered by various enzymes to control gene expression.

(448) Macronuclei are found in ciliates and are responsible for controlling gene expression.

(449) The botanist vernalized the experimental plants to observe changes in gene expression.

(450) Ribosomes are responsible for the production of enzymes that regulate gene expression.

(451) CDNA can be used to study gene expression and identify differentially expressed genes.

(452) CDNA can be used to study the effects of drugs and other compounds on gene expression.

(453) The location of acrocentric chromosomes within the nucleus can affect gene expression.

(454) The genomic analysis revealed a pattern of gene expression associated with the disease.

(455) Understanding the regulation of replicons is important for controlling gene expression.

(456) Superfamilies of transcription factors regulate gene expression in different organisms.

(457) The octoploid gene expression in the animal species was closely studied by researchers.

(458) Actomyosin is also involved in the regulation of gene expression and protein synthesis.

(459) The pericentric region of the chromosome is responsible for regulating gene expression.

(460) Foxo is a transcription factor that plays a crucial role in regulating gene expression.

(461) The cytoplasmically localized RNA molecules are involved in gene expression regulation.

(462) The study of epigenetics explores how environmental factors can affect gene expression.

(463) The study of epigenetics looks at how environmental factors can affect gene expression.

(464) Acetyl-CoA is involved in the regulation of gene expression through histone acetylation.

(465) The formation of allopolyploids can result in changes in gene expression and regulation.

(466) Autopolyploid species can have different levels of gene expression in different tissues.

(467) The coordinates of a point in a gene expression matrix can reveal patterns and clusters.

(468) Transfecting cells with fluorescent proteins allows for visualization of gene expression.

(469) The geneticist used gene expression patterns as prognostic markers for disease prognosis.

(470) The dimerization of the transcription factors led to the upregulation of gene expression.

(471) Chromosomes can be used to study the effects of environmental factors on gene expression.

(472) The carboxyl group is involved in the regulation of gene expression and protein function.

(473) The degradation of messenger RNA is an important mechanism for regulating gene expression.

(474) Carboxyl groups are involved in the regulation of gene expression through DNA methylation.

(475) The repressor protein interacts with other regulatory proteins to control gene expression.

(476) The dedifferentiated cells underwent a loss of their specialized gene expression patterns.

(477) The fluorescent protein emits fluorescence, allowing researchers to track gene expression.

(478) The field of epigenetics explores how environmental factors can influence gene expression.

(479) Transcriptionally mediated changes in gene expression can contribute to disease pathology.

(480) Cis-regulatory elements control gene expression by interacting with transcription factors.

(481) Amino acids also play a role in the regulation of gene expression and signal transduction.

(482) Ribonucleotides are involved in the regulation of gene expression through RNA interference.

(483) She analyzed the gene expression in the gill up for the tilapia during the stress response.

(484) The use of fluorescently labeled oligos allows for real-time monitoring of gene expression.

(485) The formation of appressoria is a dynamic process that involves changes in gene expression.

(486) The dimerizations of certain proteins can play a role in the regulation of gene expression.

(487) A gene expression is the process by which a gene's information is used to create a protein.

(488) DNA microarrays are used to analyze gene expression and identify patterns of gene activity.

(489) The nucleoplasm is involved in the regulation of gene expression through various mechanisms.

(490) The morphogen signaling cascade activates transcription factors to regulate gene expression.

(491) The restriction enzyme is a powerful tool for manipulating DNA and studying gene expression.

(492) Scientists use oligos to design gene-specific primers for targeted gene expression analysis.

(493) The bacteria were genetically modified to emit fluorescence as a marker for gene expression.

(494) Virusoids are thought to be involved in the regulation of gene expression in some organisms.

(495) The cis-acting element in DNA regulates gene expression by binding to transcription factors.

(496) The homeobox gene is a transcription factor that binds to DNA and regulates gene expression.

(497) The study of epigenetics has shown that environmental factors can influence gene expression.

(498) The DNA in our cells is subject to epigenetic modifications that can affect gene expression.

(499) Blastulas are highly regulated structures that require precise signaling and gene expression.

(500) The karyolymph is crucial for the regulation of gene expression and cellular differentiation.

(501) Nicotinamide adenine dinucleotide phosphate is involved in the regulation of gene expression.

(502) She analyzed the gene expression in the gill during the developmental stages of the seahorse.

(503) The geneticist will inject the mouse with genes to study gene expression in their lower back.

(504) Oncogenes can be activated by changes in gene expression or by mutations in the DNA sequence.

(505) The study of amphiploidies can help us understand the role of epigenetics in gene expression.

(506) The heterologously expressed transcription factor regulated gene expression in the host cell.

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

(508) Cosmid vectors are often used in genetic engineering to study gene expression and regulation.

(509) CDNA can be used to study the evolution of gene expression patterns across different species.

(510) The dimeric transcription factor regulated gene expression in response to environmental cues.

(511) The introns array provides insights into the regulation of gene expression during development.

(512) Allelic interactions can result in different patterns of gene expression and protein function.

(513) The karyotypes array is used to study the effects of environmental factors on gene expression.

(514) Nucleoproteins are involved in the regulation of gene expression at the transcriptional level.

(515) The transfected cells were cultured for 48 hours to allow sufficient time for gene expression.

(516) Adenyl is involved in the regulation of various cellular processes, including gene expression.

(517) The discovery of alternative splicing has revolutionized our understanding of gene expression.

(518) The quantal fluctuations in gene expression can have significant effects on cellular behavior.

(519) Multidomain analysis of gene expression can reveal important insights into disease mechanisms.

(520) The centromeric region is a target for epigenetic modifications that regulate gene expression.

(521) The discovery of polycistronic mRNA was a major breakthrough in understanding gene expression.

(522) The transcriptionally mediated control of gene expression is a fundamental process in biology.

(523) The heterokaryon is commonly used in genetic research to study gene expression and regulation.

(524) The codon usage bias varies between different organisms and can affect gene expression levels.

(525) The biological process of gene expression determines an organism's traits and characteristics.

(526) The fundamental mechanism of gene expression involves the transcription and translation of DNA.

(527) Allopolyploids can exhibit altered gene expression patterns compared to their parental species.

(528) Researchers conduct a DNA analysis to study the impact of lifestyle choices on gene expression.

(529) The blastomere can be used to study the effects of epigenetic modifications on gene expression.

(530) Scientists have discovered that some pseudogenes may have a regulatory role in gene expression.

(531) Adipose tissue can be studied using techniques such as microscopy and gene expression analysis.

(532) The introns array provides insights into the post-transcriptional regulation of gene expression.

(533) The transfected cells were transfected with a viral vector to achieve long-term gene expression.

(534) Hypertrophy is a complex process that involves changes in gene expression and protein synthesis.

(535) The mitochondrion is able to communicate with the nucleus and influence nuclear gene expression.

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

(537) If we observe the nucleus in different tissues, we can identify tissue-specific gene expression.

(538) Noncoding RNA molecules can interact with other cellular components to regulate gene expression.

(539) Biological processes can be influenced by genetic factors such as mutations and gene expression.

(540) Adenosine is a key component of RNA, which is involved in protein synthesis and gene expression.

(541) Transfecting cells with reporter genes allows for the monitoring of gene expression in real-time.

(542) Epigenesis can result in changes to gene expression without altering the underlying DNA sequence.

(543) The transfected cells were visualized under a fluorescence microscope to confirm gene expression.

(544) The autoradiography of a developing embryo can reveal the timing and location of gene expression.

(545) Transcriptionally mediated changes in gene expression can have significant physiological effects.

(546) She analyzed the gene expression in the gill out of the tilapia's head during the stress response.

(547) The fate of blastochyles is determined by various signaling pathways and gene expression patterns.

(548) Nicotinamide adenine dinucleotide is involved in the regulation of gene expression and DNA repair.

(549) The operon allows for coordinated regulation of gene expression in response to environmental cues.

(550) The intragenic epigenetic modifications were found to be important for gene expression regulation.

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