DNA in a sentence

(1) DNA is made up of genes.

(2) Eukaryotic cells have DNA.

(3) Every living thing has DNA.

(4) The DNA strands are linked.

(5) DNA is a very powerful tool.

(6) DNA is affected by our diet.

(7) The court orders a DNA test.

(8) The genome is made up of DNA.

(9) DNA is the blueprint of life.

(10) Free radicals can damage DNA.

DNA sentence

(11) Mitochondrion has its own DNA.

(12) Every living organism has DNA.

(13) DNA is the blueprint for life.

(14) Chromosomes are made up of DNA.

(15) Adenosine is a part of our DNA.

(16) Amino acid is used to make DNA.

(17) DNA is a very complex molecule.

(18) DNA is a double-stranded helix.

(19) DNA is a type of polynucleotide.

(20) DNA can be used to solve crimes.

DNA make sentence

(21) DNA is what makes us who we are.

(22) I have a double helix in my DNA.

(23) Mitochondria have their own DNA.

(24) The DNA evidence is indisputable.

(25) DNA can be used to clone animals.

(26) DNA can be repaired by our cells.

(27) The sequence of DNA was analyzed.

(28) Biologists analyze DNA sequences.

(29) The building block of life is DNA.

(30) Acroleins can cause damage to DNA.

Sentence of dna

(31) The DNA evidence is inconvertible.

(32) Identical twins have the same DNA.

(33) Adenosine is found in DNA and RNA.

(34) DNA can be repaired by our bodies.

(35) The mitochondrion has its own DNA.

(36) Radiation can damage DNA in cells.

(37) Identical twins share the same DNA.

(38) Adenines pair with thymines in DNA.

(39) The DNA evidence was inconvertible.

(40) DNA can be studied in a laboratory.

DNA meaningful sentence

(41) DNA can be used to create vaccines.

(42) DNA can be used to study evolution.

(43) DNA can be used to identify people.

(44) DNA is affected by our environment.

(45) DNA is made up of many nucleotides.

(46) Adenosine is important for our DNA.

(47) The DNA molecule is double-stranded.

(48) Alkylated DNA can lead to mutations.

(49) Prokaryotic cells have circular DNA.

(50) The biobankings contain DNA samples.

DNA sentence examples

(51) The DNA molecule is spirally shaped.

(52) DNA is passed down from our parents.

(53) DNA is shaped like a twisted ladder.

(54) DNA can be used to create new foods.

(55) The scientist used gel to study DNA.

(56) The study of DNA is called genetics.

(57) The DNA test confirms the paternity.

(58) Pyrimidines are found in DNA and RNA.

(59) DNA is an example of a macromolecule.

(60) The DNA test confirmed his parentage.

Sentence with dna

(61) The DNA molecule twisted circinately.

(62) The DNA molecule is helically coiled.

(63) DNA stands for deoxyribonucleic acid.

(64) DNA is very important for our health.

(65) DNA is affected by our stress levels.

(66) The investigator is checking for DNA.

(67) DNA is a vital part of our existence.

(68) DNA is found in the nucleus of cells.

(69) The DNA samples were a perfect match.

(70) The base number of the DNA code is 4.

Use dna in a sentence

(71) Introns are non-coding regions of DNA.

(72) Scientists can extract DNA from cells.

(73) Deuterium is used in the study of DNA.

(74) DNA is affected by our sleep patterns.

(75) Adenosine can help repair damaged DNA.

(76) DNA is found in the nucleus of a cell.

(77) Acridine is a potent DNA intercalator.

(78) Superoxide can damage DNA and proteins.

(79) Junk DNA is often repetitive in nature.

(80) Alkylating agents can cause DNA damage.

Sentence using dna

(81) Meiosis is preceded by DNA replication.

(82) Benzpyrenes can cause mutations in DNA.

(83) The DNA evidence assoils the defendant.

(84) Adenines are found in both DNA and RNA.

(85) The agarose gel was used to purify DNA.

(86) DNA is like a blueprint for our bodies.

(87) DNA can be used to determine paternity.

(88) The DNA strand is what makes us unique.

(89) The structure of DNA is a double helix.

(90) The DNA strand was made up of segments.

DNA example sentence

(91) The suspect's DNA matched the evidence.

(92) The DNA strand is transcribed into RNA.

(93) The DNA strand was analyzed in the lab.

(94) The centrifuge was used to extract DNA.

(95) Gly is involved in the synthesis of DNA.

(96) The chemical denatures the DNA molecule.

(97) The DNA molecule is structured spirally.

(98) The DNA evidence exonerated the suspect.

(99) The scientist can detect changes in DNA.

(100) DNA can be used to create new medicines.

Sentence with word dna

(101) Glucose is used by our body to make DNA.

(102) DNA can be used to create new materials.

(103) DNA is constantly changing and evolving.

(104) The lab had a sequencer for reading DNA.

(105) A nucleotide is a building block of DNA.

(106) DNA is essential for life as we know it.

(107) Saliva can also be used for DNA testing.

(108) The detective examined the DNA evidence.

(109) The DNA test will vindicate the suspect.

(110) The twins' DNA showed geminated strands.

Sentence of dna

(111) The buccal swab was used for DNA testing.

(112) Apoptosis can be triggered by DNA damage.

(113) The DNA results implicated the defendant.

(114) Oncogenes can be activated by DNA damage.

(115) Chromos are composed of DNA and proteins.

(116) Benzoapyrenes can cause mutations in DNA.

(117) Biocomputers use DNA as a storage medium.

(118) The biolysis of DNA releases nucleotides.

(119) The ncle is where DNA replication occurs.

(120) The cistron is located on a DNA molecule.

DNA used in a sentence

(121) The intricacy of DNA will blow your mind.

(122) DNA is found in the nucleus of our cells.

(123) DNA is like a recipe book for our bodies.

(124) DNA can tell us about our family history.

(125) DNA is the code that makes us who we are.

(126) DNA is affected by our lifestyle choices.

(127) Genetic information is stored in our DNA.

(128) DNA can be used to develop new medicines.

(129) Without nucleotides, DNA could not exist.

(130) Nucleotides are like the alphabet of DNA.

DNA sentence in English

(131) The DNA sample implicate the perpetrator.

(132) The defendant's DNA matched the evidence.

(133) DNA is used in forensics to solve crimes.

(134) The DNA strand is made up of nucleotides.

(135) The DNA was embedded in the genetic code.

(136) The DNA strand is the blueprint for life.

(137) The enzyme catalyzes the synthesis of DNA.

(138) DNA and RNA are examples of nucleic acids.

(139) The DNA molecule has a spiraled structure.

(140) Neutron radiation can cause damage to DNA.

(141) It is possible to clone from a DNA sample.

(142) Becquerel rays can cause mutations in DNA.

(143) Nuclein is a key component of DNA and RNA.

(144) The cell can mutate through on DNA damage.

(145) The chromo is made up of DNA and proteins.

(146) The chemical reaction denaturized the DNA.

(147) The shape of DNA is called a double helix.

(148) DNA is affected by many different factors.

(149) The shape of DNA is like a twisted ladder.

(150) DNA mutations can cause genetic disorders.

(151) The murderer's DNA was found at the scene.

(152) DNA is the key to understanding evolution.

(153) The geneticist used evidence to study DNA.

(154) The DNA strand is composed of nucleotides.

(155) The DNA strand is used to create proteins.

(156) Abasic lesions can cause mutations in DNA.

(157) Sticky ends are essential for DNA ligation.

(158) Nucleotides are the building blocks of DNA.

(159) Ionizing radiation can cause damage to DNA.

(160) He discovered his heritage from a DNA test.

(161) The DNA molecule is a type of nucleic acid.

(162) Chromatins are made up of DNA and proteins.

(163) Coacervates can be used for DNA extraction.

(164) The DNA molecule has an s-shaped structure.

(165) The karyon is where DNA replication occurs.

(166) The DNA molecule is made up of two strands.

(167) The teacher taught us about the DNA strand.

(168) DNA can be used to create new technologies.

(169) Genetic engineering is a way to modify DNA.

(170) The murder case was solved by DNA evidence.

(171) DNA is the foundation of all living things.

(172) The DNA strand is a double helix structure.

(173) Fungi can be detected through DNA analysis.

(174) The DNA strand bifurcated into two strands.

(175) The hydrolysis of DNA produces nucleotides.

(176) DNA analysis can be used to trace ancestry.

(177) The DNA molecule is made up of nucleotides.

(178) The gene mutation altered the DNA sequence.

(179) The pyrimidine thymine is methylated in DNA.

(180) The pseudogene is a non-coding DNA sequence.

(181) Corepressors bind to specific DNA sequences.

(182) The detenu's DNA was collected for analysis.

(183) Agaroses are used to separate DNA fragments.

(184) Agnations can be traced through DNA testing.

(185) Chromosomes are made up of DNA and proteins.

(186) Trace below the structure of a DNA molecule.

(187) The cell can mutate up to repair DNA damage.

(188) Cancer can be caused by changes in your DNA.

(189) The discovery of DNA revolutionized biology.

(190) DNA can be repaired by enzymes in our cells.

(191) The DNA evidence could implicate the rapist.

(192) The DNA sample could implicate the arsonist.

(193) DNA can be used to identify missing persons.

(194) DNA is found inside the cells of our bodies.

(195) The scientist made a copy of the DNA sample.

(196) Adenosine is a key component of DNA and RNA.

(197) The DNA strand is unique to each individual.

(198) The DNA strand is used in forensic analysis.

(199) The ionizing radiation can cause DNA damage.

(200) The RNA strand was transcribed from the DNA.

(201) The DNA test results exonerated the suspect.

(202) The array aae could represent a DNA sequence.

(203) The pyrimidine cytosine is methylated in DNA.

(204) Folate plays a crucial role in DNA synthesis.

(205) The warrant was obtained through a DNA match.

(206) Telomeres act as a buffer against DNA damage.

(207) Deoxyribose is a sugar molecule found in DNA.

(208) Ethidium intercalates between DNA base pairs.

(209) Barophiles have unique DNA repair mechanisms.

(210) Benzpyrene is a potent inducer of DNA damage.

(211) Bioreagents are often used in DNA sequencing.

(212) The raper's DNA was found at the crime scene.

(213) Actinisms can cause DNA damage in skin cells.

(214) Chromosomally, all living organisms have DNA.

(215) The DNA matchings proved the suspect's guilt.

(216) The fractionated DNA was used for sequencing.

(217) The DNA test will reveal a person's ancestry.

(218) Mutations in DNA can cause genetic disorders.

(219) DNA is made up of four different nucleotides.

(220) Eukaryotic cells have DNA inside the nucleus.

(221) DNA tells our bodies how to grow and develop.

(222) DNA can be used to create new energy sources.

(223) DNA can be used to create new ways of living.

(224) A nucleotide is a tiny building block of DNA.

(225) DNA can be extracted from cells for research.

(226) DNA can be used to create new types of crops.

(227) The lab had a PCR machine for amplifying DNA.

(228) DNA can be damaged by radiation or chemicals.

(229) Adenosine is a building block of DNA and RNA.

(230) The structure of the DNA molecule is complex.

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

(232) Cigarette smoke can cause damage to your DNA.

(233) The basic structure of DNA is a double helix.

(234) The DNA strand is the foundation of genetics.

(235) The DNA molecule has a symmetrical structure.

(236) The warrant was for the suspect's DNA sample.

(237) The scientist analyzed the DNA base sequence.

(238) The cytoplasm is the site of DNA replication.

(239) The molecular structure of DNA is well-known.

(240) The sequence of mRNA is complementary to DNA.

(241) The DNA sequence determines the genetic code.

(242) Anti-oxidation can help prevent damage to DNA.

(243) Junk DNA is not completely devoid of function.

(244) Ultraviolet light can damage the DNA in cells.

(245) The DNA evidence confirms the suspect's guilt.

(246) Ionizing radiation can cause mutations in DNA.

(247) The DNA double helix has a spiraled structure.

(248) The crime was solved by means of DNA evidence.

(249) Telomeres consist of repetitive DNA sequences.

(250) The holoenzyme is involved in DNA replication.

(251) Cosmic rays can cause damage to DNA molecules.

(252) Denatured DNA can result in genetic mutations.

(253) Blastogenic agents can cause mutations in DNA.

(254) The DNA in a cell is packaged into chromatins.

(255) The enzyme autolyzes the DNA into nucleotides.

(256) The DNA molecule contorts into a spiral shape.

(257) Trinucleotides are the building blocks of DNA.

(258) The suspect was found guilty via DNA evidence.

(259) DNA can be damaged by radiation and chemicals.

(260) DNA can repair itself, but sometimes it can't.

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

(262) Adenosine is a building block for DNA and RNA.

(263) DNA repair mechanisms help to fix damaged DNA.

(264) The lab covered the process of DNA extraction.

(265) The fugitive was caught thanks to a DNA match.

(266) The warrant was for the suspect's DNA profile.

(267) The analysis of the DNA sample was conclusive.

(268) The laboratory was where the DNA was analyzed.

(269) Nucleotides are essential for DNA replication.

(270) ATP is used in the process of DNA replication.

(271) Denatured DNA cannot be replicated accurately.

(272) The DNA strands entwine to form a double helix.

(273) The DNA strand was coiling into a double helix.

(274) Denatured DNA can be used in forensic analysis.

(275) Benzidines are known to cause mutations in DNA.

(276) Bromouracil can lead to DNA replication errors.

(277) The scientist stemed the sample to extract DNA.

(278) The DNA test was able to exonerate the accused.

(279) Chondriosomes have their own DNA and ribosomes.

(280) The chromatids are composed of DNA and protein.

(281) The DNA evidence could incriminate the suspect.

(282) DNA can be used to identify endangered species.

(283) The DNA test was able to vindicate the suspect.

(284) DNA can be visualized using special techniques.

(285) Somatic mutations can cause changes in our DNA.

(286) Scientists use DNA to study animals and plants.

(287) The chain of DNA determines our genetic makeup.

(288) Mutations in DNA can lead to genetic disorders.

(289) DNA testing can be used to determine paternity.

(290) DNA is the reason why we look like our parents.

(291) The DNA sequence determines our genetic makeup.

(292) The DNA of identical twins is nearly identical.

(293) The fugitive was caught thanks to DNA evidence.

(294) Please describe the process of DNA replication.

(295) Azote is a vital component in the DNA molecule.

(296) The DNA strands run antiparallel to each other.

(297) The DNA double helix is a twisted ladder shape.

(298) The germ plasm contains the DNA of an organism.

(299) Filiation can be determined through DNA testing.

(300) The structural formula of DNA is a double helix.

(301) Polymerase is involved in repairing damaged DNA.

(302) Junk DNA is often referred to as non-coding DNA.

(303) The chromatids are composed of DNA and proteins.

(304) The bloodstain matched the victim's DNA profile.

(305) Oxidants can damage cellular structures and DNA.

(306) The DNA test results will vindicate the suspect.

(307) The offender's DNA was found at the crime scene.

(308) They also have DNA that determines their traits.

(309) Adenosines are nucleotides found in DNA and RNA.

(310) The agarose gel was used to visualize DNA bands.

(311) Alloxans are known to cause DNA damage in cells.

(312) The DNA evidence attests to the suspect's guilt.

(313) The intricacy of DNA is irreducibly fascinating.

(314) DNA can be damaged by UV radiation from the sun.

(315) The DNA evidence vindicated the suspect's guilt.

(316) DNA can be used to create personalized medicine.

(317) The cytoplasm is where the cell's DNA is stored.

(318) DNA can be used to study the spread of diseases.

(319) Somatic cells are affected by our genes and DNA.

(320) The defendant's DNA was matched to the evidence.

(321) The murderer's DNA was found at the crime scene.

(322) DNA is used in forensic science to solve crimes.

(323) The mitochondrion is able to repair damaged DNA.

(324) The killer's DNA was a match to the crime scene.

(325) A nucleotide is the basic building block of DNA.

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

(327) Abnormalities in the DNA sequence were detected.

(328) The pyrimidine thymine pairs with adenine in DNA.

(329) Researchers often use RFLP to study DNA patterns.

(330) The homeobox is a highly conserved region of DNA.

(331) ATP is required for the synthesis of RNA and DNA.

(332) Sequencing is an important step in analyzing DNA.

(333) Elution is a key step in the purification of DNA.

(334) The array bsp can be used to store DNA sequences.

(335) The denatured DNA is no longer able to replicate.

(336) Denatured DNA is often used in forensic analysis.

(337) Alkynes can be used as markers in DNA sequencing.

(338) She is my biological child, born from my own DNA.

(339) Ethidium is commonly used in DNA electrophoresis.

(340) Ethidium can be used to quantify DNA in a sample.

(341) Polyoma viruses are a group of small DNA viruses.

(342) The replicon is a key element in DNA replication.

(343) Autolysing can be used to extract DNA from cells.

(344) Chromograms can be used to analyze DNA sequences.

(345) Cyanocobalamines are necessary for DNA synthesis.

(346) I found my biological father through DNA testing.

(347) The accused's DNA was found on the murder weapon.

(348) The autolysed tissue was used for DNA extraction.

(349) The basepair pairing is essential for DNA repair.

(350) The sarcosome contains its own DNA and ribosomes.

(351) The agarose gel was used for DNA electrophoresis.

(352) His love for music seemed hardwired into his DNA.

(353) The DNA test exonerates the accused of the crime.

(354) Nucleotides are the basic building blocks of DNA.

(355) The molecular structure of DNA is a double helix.

(356) DNA can be used to create vaccines and medicines.

(357) The suspect's DNA was found on the murder weapon.

(358) The researcher analyzed the DNA of a new species.

(359) DNA is responsible for the inheritance of traits.

(360) The structure of the DNA molecule is fascinating.

(361) Adenosine is important for DNA and RNA synthesis.

(362) The sequence of DNA is unique to each individual.

(363) The scientist sequenced the entire strand of DNA.

(364) High levels of radiation can damage cellular DNA.

(365) The acronym DNA stands for Deoxyribonucleic Acid.

(366) Anabolism is responsible for the synthesis of DNA.

(367) The DNA strand was coiling tightly in the nucleus.

(368) Denaturizing DNA can be used in forensic analysis.

(369) The pyrimidine cytosine pairs with guanine in DNA.

(370) The detective work required analyzing DNA samples.

(371) The arrest aside was a result of new DNA evidence.

(372) DNA analysis is a common method used in forensics.

(373) The scientist unravelled the complex DNA sequence.

(374) The assailant was identified through DNA evidence.

(375) The helix structure can be found in DNA molecules.

(376) The carcinogen is known to cause mutations in DNA.

(377) The suspect was found guilty through DNA analysis.

(378) The scientist extracted DNA from the blood sample.

(379) The denatured DNA was no longer able to replicate.

(380) Denatured DNA cannot be used for genetic analysis.

(381) The family tree is a reflection of our shared DNA.

(382) The array guar can be used to store DNA sequences.

(383) Polymerases are involved in DNA repair mechanisms.

(384) Bioflavonoids can help protect against DNA damage.

(385) Alkylated DNA bases can lead to genetic mutations.

(386) The suspect's alibi was disproven by DNA evidence.

(387) The DNA evidence corroborates the suspect's alibi.

(388) The basepair bonding is crucial for DNA stability.

(389) Monozygous twins have the same blood type and DNA.

(390) Nitrogens are important components of DNA and RNA.

(391) Adenines are essential for the replication of DNA.

(392) The DNA results were supposed against the suspect.

(393) The murderer was arrested by means of a DNA match.

(394) The DNA evidence corroborates the suspect's guilt.

(395) Methylase plays a crucial role in DNA methylation.

(396) Guanos are nitrogenous bases found in DNA and RNA.

(397) Sequencers are essential tools for DNA sequencing.

(398) The subunit of the DNA molecule is the nucleotide.

(399) Ligase with exonuclease is used in DNA sequencing.

(400) DNA can be damaged by viruses and other pathogens.

(401) The DNA can replicate itself during cell division.

(402) DNA can mutate, which can cause genetic disorders.

(403) DNA can be used to create new varieties of plants.

(404) DNA can be used to trace the evolution of species.

(405) DNA is passed down from parents to their children.

(406) Eukaryotic cells have a nucleus that contains DNA.

(407) The sequence of DNA determines our genetic makeup.

(408) Rosalind Franklin discovered the structure of DNA.

(409) The DNA strand is replicated during cell division.

(410) Iron is a crucial element in the formation of DNA.

(411) Deuterium is used in the study of DNA replication.

(412) The DNA sample implicates the suspect in the rape.

(413) The DNA sample remained intact after being frozen.

(414) ATP is involved in the process of DNA replication.

(415) Dinucleotides are essential building blocks of DNA.

(416) The phosphoric element is a vital component of DNA.

(417) Pyrimidines are important for the stability of DNA.

(418) Geneticists use advanced technology to analyze DNA.

(419) The DNA strands in a double helix are antiparallel.

(420) Junk DNA is a topic of ongoing research and debate.

(421) The DNA sequence is divided into segs for analysis.

(422) Telomeres are composed of repetitive DNA sequences.

(423) Neutrons can be used to probe the structure of DNA.

(424) DNA carries the genetic information of an organism.

(425) Interphase is a crucial period for DNA replication.

(426) Denatured DNA is often used in genetic engineering.

(427) The centromere is a site of active DNA replication.

(428) The synthesis of DNA requires deoxyribonucleotides.

(429) Biochem techniques are used to analyze DNA and RNA.

(430) Biochemic pathways are involved in DNA replication.

(431) The process of cataphoresis is used to analyze DNA.

(432) Chromatinic fibers are made up of DNA and proteins.

(433) The ncle is the site of DNA transcription into RNA.

(434) The width of a DNA molecule is around 2 nanometres.

(435) Nucleosides are the building blocks of DNA and RNA.

(436) The radiation will denaturise the DNA in the cells.

(437) The discovery of DNA anteceded genetic engineering.

(438) Adenines are involved in the process of DNA repair.

(439) Adenosines are part of the purine base pair in DNA.

(440) The agarose gel was used to separate DNA fragments.

(441) The DNA was circularized using a ligation reaction.

(442) Watson and Crick codiscovered the structure of DNA.

(443) Exons are separated by introns in the DNA sequence.

(444) The scientist rodded the sample to extract the DNA.

(445) The nucleoid is composed of DNA, RNA, and proteins.

(446) The scientist used scraps of DNA to study genetics.

(447) Amino acids are important for our body to make DNA.

(448) DNA is a molecule that carries genetic information.

(449) DNA is passed down from parents to their offspring.

(450) Neutrons can be used to study the structure of DNA.

(451) The DNA evidence will bear out the suspect's guilt.

(452) The DNA sample implicates the suspect in the arson.

(453) The scientist used a base of DNA to study genetics.

(454) Iron is a vital component in the production of DNA.

(455) The enzyme DNA polymerase helps in DNA replication.

(456) The cellular level is where DNA replication occurs.

(457) The abasic site was identified in the DNA sequence.

(458) The codon sequence is transcribed from DNA to mRNA.

(459) The karyolymph is affected by mutations in the DNA.

(460) The kilobases array is populated with DNA sequences.

(461) Azote is an essential component of proteins and DNA.

(462) Deoxyribonucleotides are the building blocks of DNA.

(463) The DNA was sequenced to determine the genetic code.

(464) Adenine is one of the four nucleobases found in DNA.

(465) The researcher analyzed the DNA sample inch by inch.

(466) Niacin is involved in the production of DNA and RNA.

(467) The sequence ACG is commonly found in DNA molecules.

(468) The crime scene was beblooded with the victim's DNA.

(469) The word homeobox refers to a specific DNA sequence.

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

(471) The protein molecule is encoded by genes in the DNA.

(472) Glycine is involved in the synthesis of DNA and RNA.

(473) Biotin is required for the synthesis of DNA and RNA.

(474) The scientist is recombining DNA strands in the lab.

(475) The DNA molecule twisted spirally in a double helix.

(476) The DNA test revealed his ancestry in North America.

(477) Polyamines are involved in the repair of DNA damage.

(478) Retroviruses have been found in ancient DNA samples.

(479) Adenyl is required for the synthesis of DNA and RNA.

(480) Ethidium is often used to stain DNA in agarose gels.

(481) The discovery of DNA antecede the field of genetics.

(482) Mutagens can induce changes in the structure of DNA.

(483) The DNA sequence was found to be 500 kilobases long.

(484) Bleomycins work by damaging the DNA of cancer cells.

(485) She found her biological-mother through DNA testing.

(486) Noncoding DNA can be transcribed into noncoding RNA.

(487) Sirtuins are involved in DNA repair and maintenance.

(488) The detectives analyzed the cruors for DNA evidence.

(489) Amins are required for the synthesis of DNA and RNA.

(490) The chondriosome contains its own DNA and ribosomes.

(491) Denaturised DNA cannot be used for genetic analysis.

(492) The quadruplex DNA helix is a rare genetic mutation.

(493) The absorption of radiation can cause damage to DNA.

(494) DNA testing can determine if two people are related.

(495) The DNA in eukaryotes is organized into chromosomes.

(496) Ribosomes are involved in the process of DNA repair.

(497) DNA is like a code that tells our bodies what to do.

(498) The DNA evidence implicate the suspect in the crime.

(499) Scientists use DNA to learn about different species.

(500) The scientist used a strip of DNA to study genetics.

(501) DNA is a fascinating and important topic in science.

(502) The scientist can morph DNA to study genetic traits.

(503) The DNA of eukaryotes is organized into chromosomes.

(504) DNA is a molecule that contains genetic information.

(505) DNA testing can also be used to determine paternity.

(506) The scientist studied a portion of the DNA sequence.

(507) The DNA sample implicates the suspect in the murder.

(508) DNA evidence can be used in criminal investigations.

(509) DNA is used in biotechnology to create new products.

(510) Genetic disorders can be caused by mutations in DNA.

(511) The structure of the DNA molecule is a double helix.

(512) The accomplice's DNA was found on the murder weapon.

(513) Mitochondrial DNA is inherited only from the mother.

(514) Biochemists may work with proteins, enzymes, or DNA.

(515) The genetics lab is where we study heredity and DNA.

(516) Azote is an important component of DNA and proteins.

(517) Dinucleotides play a crucial role in DNA replication.

(518) Denaturizing DNA can be a way to prevent replication.

(519) The scientist spat into a test tube for a DNA sample.

(520) Octamer-based DNA probes are used in genetic testing.

(521) The exhumation was necessary to collect DNA evidence.

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

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

(524) The chromatids are replicated during DNA replication.

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

(526) The bloodstains were analyzed for blood type and DNA.

(527) The term DNA is used to denote deoxyribonucleic acid.

(528) Nucleotides are essential for the replication of DNA.

(529) Coenzyme is involved in the synthesis of DNA and RNA.

(530) Folate is important for the synthesis of DNA and RNA.

(531) The DNA double helix is a spirally twisted structure.

(532) Deoxyribose is a key component of nucleotides in DNA.

(533) Nucleoproteins are involved in DNA repair mechanisms.

(534) The detective found DNA scrapings at the crime scene.

(535) Pyrimidines are essential for the replication of DNA.

(536) Thiamin is required for the synthesis of DNA and RNA.

(537) Adenine always pairs with thymine in a DNA base pair.

(538) The deproteinized tissue was used for DNA extraction.

(539) Biophysicists explore the physics of DNA replication.

(540) The circularizers helped to close the gap in the DNA.

(541) The scientist will extract DNA from the blood sample.

(542) The monomeric building blocks of DNA are nucleotides.

(543) Covalent bonds are important in the structure of DNA.

(544) Adenyls are involved in the synthesis of DNA and RNA.

(545) Isochores are regions of DNA with similar GC content.

(546) The DNA of pongids is very similar to that of humans.

(547) The researcher analyzed the DNA sample in micrograms.

(548) The dinucleotide bond is important for DNA structure.

(549) The discovery of DNA was a breakthrough for genetics.

(550) The prosecution may use DNA evidence to prove guilty.

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