Chromosomal in a sentence

(1) Euploid cells maintain chromosomal integrity.

(2) Klinefelter syndrome is a chromosomal disorder.

(3) Chromosomal aberration can lead to miscarriages.

(4) Chromosomal aberration can result in infertility.

(5) Chromosomal aberration can lead to birth defects.

(6) Chromosomal mutation can lead to genetic disorders.

(7) Disomy can be caused by chromosomal rearrangements.

(8) Chromosomal aberration can result in heart defects.

(9) Euploid cells have a regular chromosomal structure.

(10) Agyria can be a result of chromosomal abnormalities.

Chromosomal sentence

(11) Chromosomal aberration can lead to genetic disorders.

(12) Chromosomal aberration can be inherited from parents.

(13) Chromosomal aberration can cause organ malformations.

(14) Euploid cells have a regular chromosomal arrangement.

(15) If she has a chromosomal abnormality, she miscarries.

(16) Amastia can be a result of chromosomal abnormalities.

(17) Pachytene is a period of intense chromosomal activity.

(18) Euploid individuals have a typical chromosomal makeup.

(19) Euploid cells undergo regular chromosomal replication.

(20) Euploid cells have a balanced chromosomal composition.

Chromosomal make sentence

(21) Euploid cells maintain the proper chromosomal balance.

(22) Ageneses can be a result of a chromosomal abnormality.

(23) Agenesia can be a result of chromosomal abnormalities.

(24) Down syndrome is the most common chromosomal disorder.

(25) Dinucleotide repeats can cause chromosomal instability.

(26) Meiotic errors can result in chromosomal abnormalities.

(27) Study the chromomere's impact on chromosomal stability.

(28) Agenesias can be a result of a chromosomal abnormality.

(29) Acentric chromosomes can cause chromosomal instability.

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

Sentence of chromosomal

(31) Chromosomal aberration can lead to behavioral disorders.

(32) Chromosomal aberration can result in shortened lifespan.

(33) Genotoxic compounds can cause chromosomal abnormalities.

(34) The chromosomal analysis showed a balanced translocation.

(35) Oncogenes can be activated by chromosomal translocations.

(36) Chromosomal aberration can lead to learning disabilities.

(37) The cell nucleus is the site of chromosomal organization.

(38) The chromomere is involved in chromosomal rearrangements.

(39) Euploid organisms exhibit a stable chromosomal structure.

(40) Euploid cells maintain the appropriate chromosomal count.

Chromosomal meaningful sentence

(41) Euploid organisms display a normal chromosomal structure.

(42) Euploid cells exhibit a balanced chromosomal composition.

(43) Euploid organisms have a typical chromosomal arrangement.

(44) An acentric chromosome is a type of chromosomal mutation.

(45) Acentric chromosomes can cause chromosomal abnormalities.

(46) The occurrence of chromosomal mutation is relatively rare.

(47) Telomeric dysfunction can lead to chromosomal instability.

(48) The germline can be affected by chromosomal abnormalities.

(49) The centromere is a highly specialized chromosomal region.

(50) Study the chromomere's function in chromosomal imprinting.

Chromosomal sentence examples

(51) Euploid cells exhibit the proper chromosomal distribution.

(52) Chromatins can be used to study chromosomal abnormalities.

(53) Acentric chromosomes can cause chromosomal rearrangements.

(54) Trisomic disorders are caused by chromosomal abnormalities.

(55) Chromosomal aberration can lead to chromosomal instability.

(56) Heteroploidy can be a result of chromosomal rearrangements.

(57) Chromomeres can be used to study chromosomal abnormalities.

(58) Euploid organisms exhibit a consistent chromosomal pattern.

(59) Telomerase dysfunction can lead to chromosomal instability.

(60) Chromosomal mutation can lead to the development of cancer.

Sentence with chromosomal

(61) Chromosomal mutation can affect an organism's immune system.

(62) The chromosomal analysis showed a deletion on chromosome 22.

(63) Euploid individuals have a balanced chromosomal composition.

(64) Germ cell mutations can result in chromosomal abnormalities.

(65) Monosomes can be associated with chromosomal rearrangements.

(66) Chromosomal aberration can cause changes in facial features.

(67) Chromosomal aberration can cause vision or hearing problems.

(68) Euploid individuals possess a typical chromosomal structure.

(69) Analyze the chromomere's role in chromosomal rearrangements.

(70) Euploid organisms exhibit a typical chromosomal arrangement.

Use chromosomal in a sentence

(71) Euploid cells exhibit the appropriate chromosomal integrity.

(72) Chromosomal mutation can occur spontaneously or be inherited.

(73) Chromosomal mutation can be detected through genetic testing.

(74) Chromosomal mutation can be a driving force behind evolution.

(75) The chromosomal analysis revealed a deletion on chromosome 7.

(76) The chromosomal abnormalities were inherited from the mother.

(77) The pericentric region is involved in chromosomal imprinting.

(78) Scientists are studying the causes of chromosomal aberration.

(79) Chromosomal aberration can affect an individual's metabolism.

(80) Microtubular instability can lead to chromosomal instability.

Sentence using chromosomal

(81) Euploid organisms exhibit a harmonious chromosomal structure.

(82) Euploid organisms possess a balanced chromosomal composition.

(83) Euploid cells maintain the appropriate chromosomal integrity.

(84) Karyokinetic defects can result in chromosomal abnormalities.

(85) The doctor diagnosed the patient with chromosomal aberrations.

(86) The chromogram provided evidence of chromosomal abnormalities.

(87) Chromosomal aberration can result in abnormal growth patterns.

(88) Chromosomal aberration can lead to chromosomal translocations.

(89) Euploid individuals display a normal chromosomal organization.

(90) Identify the chromomere's position within the chromosomal arm.

Chromosomal example sentence

(91) Euploid organisms display the appropriate chromosomal content.

(92) An acentric chromosome can result from a chromosomal breakage.

(93) Chorionic villus sampling can detect chromosomal abnormalities.

(94) Chromosomal aberration can be detected through genetic testing.

(95) Chromosomal aberration can result in intellectual disabilities.

(96) The pentamer repeat is associated with chromosomal instability.

(97) Mutations in centromeres can lead to chromosomal abnormalities.

(98) Euploid individuals display a balanced chromosomal arrangement.

(99) Chromomeres are involved in the formation of chromosomal loops.

(100) The metaphase stage is a time of high chromosomal condensation.

Sentence with word chromosomal

(101) The failure of anaphases can lead to chromosomal abnormalities.

(102) The absence of chiasmata can lead to chromosomal abnormalities.

(103) Chromosomal mutation can lead to the development of new species.

(104) The chromosomal rearrangements were associated with infertility.

(105) The pericentric region is associated with chromosomal fragility.

(106) Congenital anomalies can be caused by chromosomal abnormalities.

(107) Chromosomal aberration can increase the risk of certain cancers.

(108) Chromosomal aberration can affect an individual's immune system.

(109) Chromosomal aberration can result in chromosomal rearrangements.

(110) Polytene cells are known for their unique chromosomal structure.

Sentence of chromosomal

(111) Trisomy 21 is the most common chromosomal abnormality in humans.

(112) Explore the chromomere's involvement in chromosomal segregation.

(113) Some types of cancer are associated with chromosomal aberration.

(114) Congenital disorders can be caused by chromosomal abnormalities.

(115) Chromosomal mutation can disrupt the normal functioning of genes.

(116) Chromosomal mutation can cause changes in an organism's behavior.

(117) The chromosomal translocation was identified through karyotyping.

(118) The chromosomal analysis revealed a duplication on chromosome 15.

(119) The chromosomal abnormalities were linked to a specific syndrome.

(120) Euploid cells have a regular and predictable chromosomal pattern.

Chromosomal used in a sentence

(121) Ectopia can be associated with certain chromosomal abnormalities.

(122) Acrocentrics are important for maintaining chromosomal integrity.

(123) Polytene cells are used to study chromosomal breakage and repair.

(124) Observe the chromomere's behavior during chromosomal replication.

(125) If a cell is euploid, it possesses the correct chromosomal count.

(126) Chromosomal mutation can lead to the formation of abnormal cells.

(127) Chromosomal aberration can be inherited from one or both parents.

(128) The chromosomal rearrangements were found to be somatic mutations.

(129) The chromosomal aberrations were associated with a poor prognosis.

(130) The sperm chromosomal abnormalities can lead to genetic disorders.

Chromosomal sentence in English

(131) Chromosomal aberration can cause developmental delays in children.

(132) Asynapsis can lead to the formation of chromosomal rearrangements.

(133) Explore the chromomere's involvement in chromosomal abnormalities.

(134) Analyze the chromomere's relationship to chromosomal condensation.

(135) If a cell is euploid, it maintains the proper chromosomal balance.

(136) Asynapsis can result in chromosomal abnormalities and infertility.

(137) Genetic disorders can also be caused by chromosomal abnormalities.

(138) The acentric chromosome is a result of a chromosomal rearrangement.

(139) Chromosomal mutation can lead to the formation of tumors or cancer.

(140) Chromosomal mutation can cause changes in an organism's metabolism.

(141) The child's birth defect was a result of a chromosomal abnormality.

(142) I wonder if gonosome has any relation to chromosomal abnormalities.

(143) The patient's symptoms were consistent with a chromosomal disorder.

(144) The movement of transposons can lead to chromosomal rearrangements.

(145) Aneuploid conditions can be diagnosed through chromosomal analysis.

(146) Asynapsis can result in the formation of chromosomal abnormalities.

(147) Euploid individuals have a lower risk of chromosomal abnormalities.

(148) Explore the chromomere's involvement in chromosomal translocations.

(149) If an individual is euploid, they have a normal chromosomal makeup.

(150) If a cell is euploid, it possesses the expected chromosomal number.

(151) A chromosomal mutation can cause changes in an organism's behavior.

(152) The chromomeres are involved in the formation of chromosomal loops.

(153) Chromosomal aberration can result from errors during cell division.

(154) The pericentric region is a hotspot for chromosomal rearrangements.

(155) The child's microcephaly was a result of a chromosomal abnormality.

(156) The chromosomal abnormalities were detected during prenatal testing.

(157) The array replicons includes both plasmid and chromosomal replicons.

(158) The formation of a micronucleus can lead to chromosomal instability.

(159) Certain medications can increase the risk of chromosomal aberration.

(160) Chromosomal aberration can cause structural abnormalities in organs.

(161) The polytene banding pattern is used to study chromosomal deletions.

(162) Genetic defects can be linked to specific chromosomal abnormalities.

(163) If an organism is euploid, it exhibits a normal chromosomal pattern.

(164) The mother miscarries due to a chromosomal abnormality in the fetus.

(165) The chromomeres are important for maintaining chromosomal stability.

(166) Understanding chromosomal mutation is important for genetic research.

(167) Chromosomal mutation can lead to the production of abnormal proteins.

(168) The researchers studied the chromosomal structure of various species.

(169) The chromosomal mutations were responsible for the disease phenotype.

(170) Euploid cells have a regular and symmetrical chromosomal arrangement.

(171) Euploid individuals have a normal chromosomal pairing during meiosis.

(172) Monosomy can be detected through chromosomal analysis or karyotyping.

(173) Atresias can be associated with genetic or chromosomal abnormalities.

(174) Chromosomal aberration can affect an individual's hormone production.

(175) The polytene banding pattern is used to study chromosomal inversions.

(176) Determine the chromomere's location within the chromosomal territory.

(177) If a cell is euploid, it maintains the correct chromosomal structure.

(178) Chromosomal mutation can be inherited from one generation to another.

(179) Chromosomal mutation can result in the formation of abnormal gametes.

(180) A chromosomal mutation can cause changes in an organism's metabolism.

(181) Chromosomal mutation can result in the formation of genetic diseases.

(182) The movement of retroelements can lead to chromosomal rearrangements.

(183) The metacentric chromosome is a result of chromosomal rearrangements.

(184) Chromosomal mutation can cause developmental abnormalities in embryos.

(185) Chromosomal mutation can be passed down from generation to generation.

(186) Chromosomal mutation can be a result of errors during DNA replication.

(187) The chromosomal aberrations were associated with developmental delays.

(188) Eunuchoidism can be associated with certain chromosomal abnormalities.

(189) Chromosomal aberration can affect an individual's cognitive abilities.

(190) Polytene cells are used to study chromosomal gene dosage compensation.

(191) A chromosomal mutation can cause changes in an individual's phenotype.

(192) Cytogeneticists use karyotyping to identify chromosomal abnormalities.

(193) Micronucleus formation can lead to chromosomal instability and cancer.

(194) The chromosomal abnormalities were detected during prenatal ultrasound.

(195) Abnormal securin expression has been linked to chromosomal instability.

(196) The metacentric chromosome is susceptible to chromosomal abnormalities.

(197) Chromosomal aberration can affect an individual's ability to reproduce.

(198) Chromosomal aberration can cause chromosomal deletions or duplications.

(199) Polytene chromosomes are often used to study chromosomal polymorphisms.

(200) Chromosomal aberration can cause infertility in both males and females.

(201) Chromosomal mutation can result in infertility or reproductive problems.

(202) Chromosomal mutation can result in the loss or gain of genetic material.

(203) The child's congenital defect was a result of a chromosomal abnormality.

(204) The child's congenital disorder was caused by a chromosomal abnormality.

(205) Acrocentric individuals have a higher risk of chromosomal abnormalities.

(206) Mutations in the centromeric region can lead to chromosomal instability.

(207) The researcher used a chromogram to study the chromosomal abnormalities.

(208) Polytene chromosomes are often used to study chromosomal rearrangements.

(209) The movement of retrotransposons can lead to chromosomal rearrangements.

(210) Euploid individuals have a genetically stable chromosomal configuration.

(211) Analyze the chromomere's role in chromosomal segregation during mitosis.

(212) Chromosomal mutation can be caused by exposure to radiation or chemicals.

(213) The chromosomal abnormalities were linked to an increased risk of cancer.

(214) Amniocentesis can detect chromosomal abnormalities such as Down syndrome.

(215) The polytene banding pattern is used to study chromosomal translocations.

(216) Primary amenorrhea can be a symptom of certain chromosomal abnormalities.

(217) Chromosomal mutation can lead to the development of autoimmune disorders.

(218) The chromomeres are thought to be involved in chromosomal rearrangements.

(219) The baby's congenital disorder was a result of a chromosomal abnormality.

(220) The patient's congenital disease was caused by a chromosomal abnormality.

(221) The chromogram revealed a chromosomal abnormality in the patient's cells.

(222) The chromogram revealed a chromosomal duplication in the patient's cells.

(223) Karyotypes are used to identify chromosomal abnormalities in individuals.

(224) The presence of an acentric chromosome can lead to chromosomal imbalances.

(225) Mutations in the pericentric region can lead to chromosomal abnormalities.

(226) The amnio test can detect chromosomal abnormalities such as Down syndrome.

(227) The scientist used the chromogram to study the chromosomal rearrangements.

(228) Polytene cells are used to study chromosomal puffs and gene amplification.

(229) The occurrence of a chromosomal mutation can lead to developmental delays.

(230) Chromosomal mutation can result in the formation of genetic abnormalities.

(231) The patient's congenital disorder was caused by a chromosomal abnormality.

(232) Mutations in the centromeric region can lead to chromosomal abnormalities.

(233) The presence of an acentric chromosome can lead to chromosomal instability.

(234) Chromosomal mutation can result in the loss of certain traits or abilities.

(235) Polyploids can have altered patterns of chromosomal pairing during meiosis.

(236) The presence of micronuclei can be indicative of chromosomal abnormalities.

(237) The study of acrocentrics provides insights into chromosomal abnormalities.

(238) The study of chromomeres can help in identifying chromosomal abnormalities.

(239) Euploid cells undergo regular chromosomal segregation during cell division.

(240) The structure of gonosomes can be influenced by chromosomal rearrangements.

(241) The chromogram revealed a chromosomal rearrangement in the patient's cells.

(242) Scientists are studying the effects of chromosomal mutation on human health.

(243) Genetic counseling can help individuals understand their chromosomal makeup.

(244) The chromosomal rearrangements were found to be recurrent in the population.

(245) Euploid cells have a lower risk of chromosomal rearrangements and mutations.

(246) The metacentric chromosome is involved in maintaining chromosomal integrity.

(247) The metacentric chromosome is crucial for maintaining chromosomal stability.

(248) Mitotic checkpoint defects can result in chromosomal instability and cancer.

(249) Polytene chromosomes are used to study chromosomal interactions and looping.

(250) The presence of a chromosomal mutation can affect an individual's fertility.

(251) The formation of an acentric chromosome can lead to chromosomal instability.

(252) Gene mutation can be classified as point mutations or chromosomal mutations.

(253) The fidelity of anaphase is crucial for preventing chromosomal abnormalities.

(254) The chromosomal abnormalities were inherited in an autosomal dominant manner.

(255) The chromosomal abnormalities were identified through whole exome sequencing.

(256) The euploid condition is characterized by a balanced chromosomal composition.

(257) Chromosomal mutation can result in the production of non-functional proteins.

(258) A chromosomal mutation can cause changes in an organism's sensory perception.

(259) The acentric chromosome was identified as a result of a chromosomal deletion.

(260) Mutations in the securin gene can lead to chromosomal instability and cancer.

(261) The researcher is analyzing the chromos to identify chromosomal abnormalities.

(262) Chromosomal mutation can be a source of genetic variation within a population.

(263) Sperm for genetic testing can be used to screen for chromosomal abnormalities.

(264) The presence of a micronucleus can be indicative of chromosomal abnormalities.

(265) Meningocele can be a result of genetic mutations or chromosomal abnormalities.

(266) Cytogeny has provided insights into the mechanisms of chromosomal inheritance.

(267) Myelomas can be associated with genetic abnormalities and chromosomal changes.

(268) The cross-linking of DNA can lead to the formation of chromosomal aberrations.

(269) If a chromatid is lost or damaged, it may result in chromosomal abnormalities.

(270) A chromosomal mutation can cause changes in an organism's reproductive system.

(271) A chromosomal mutation can cause changes in an organism's physical appearance.

(272) Chromosomal mutation can lead to the development of intellectual disabilities.

(273) Oligohydramnios can be associated with chromosomal abnormalities in the fetus.

(274) Certain environmental factors can increase the risk of chromosomal aberration.

(275) Exomphalos can be associated with chromosomal abnormalities such as trisomy 18.

(276) Telomerase is an important enzyme for the maintenance of chromosomal integrity.

(277) The karyological examination revealed a chromosomal abnormality in the patient.

(278) The study of triploids is important in understanding chromosomal abnormalities.

(279) Chromosomal abnormalities can occur in autosomes, leading to genetic disorders.

(280) The occurrence of amphiploidies can be influenced by chromosomal rearrangements.

(281) Chromosomal mutation can have both positive and negative effects on an organism.

(282) Chromosomal mutation can lead to the development of drug resistance in bacteria.

(283) Chromosomal mutation can affect an organism's ability to reproduce successfully.

(284) Telomeres are important for maintaining chromosomal stability during DNA repair.

(285) The chromosomal translocation was identified through next-generation sequencing.

(286) Scientists are studying the telocentric nature of certain chromosomal disorders.

(287) The centromeric region is prone to rearrangements and chromosomal abnormalities.

(288) The cytogeneticist analyzed the patient's DNA for any chromosomal abnormalities.

(289) Defects in synaptonemal complex formation can lead to chromosomal abnormalities.

(290) The metaphases of the cancer cells showed significant chromosomal abnormalities.

(291) The diploidy of certain organisms can be disrupted by chromosomal abnormalities.

(292) If an individual is euploid, their cells contain the expected chromosomal count.

(293) Chromosomal mutation can result in the alteration of an organism's DNA sequence.

(294) The presence of a chromosomal mutation can affect an individual's immune system.

(295) The occurrence of a chromosomal mutation can lead to the loss of certain traits.

(296) A chromosomal mutation can cause changes in an organism's reproductive behavior.

(297) Chromosomal mutation can alter an organism's ability to adapt to its environment.

(298) Noninvasive prenatal screening can detect chromosomal abnormalities in the fetus.

(299) The chromosomal rearrangements were associated with a higher risk of miscarriage.

(300) The pericentric region plays a crucial role in maintaining chromosomal stability.

(301) The karyological analysis revealed a chromosomal rearrangement in the individual.

(302) If an individual is euploid, their chromosomal makeup is within the normal range.

(303) The cytogenetics report indicated a chromosomal inversion in the patient's cells.

(304) If the nucleus contains telomeres, it protects chromosomal ends from degradation.

(305) The presence of micronuclei can indicate DNA damage or chromosomal abnormalities.

(306) The failure of bivalents to properly align can lead to chromosomal abnormalities.

(307) Certain environmental factors can increase the likelihood of chromosomal mutation.

(308) The chromosomal rearrangements were found to be somatic mutations in cancer cells.

(309) Mosaicism can be mosaic for specific genes or involve larger chromosomal segments.

(310) The karyological examination revealed a chromosomal deletion in the patient's DNA.

(311) Researchers use cytogenetics to identify chromosomal abnormalities in individuals.

(312) Allotetraploids can undergo genomic rearrangements and chromosomal translocations.

(313) Preimplantation genetic diagnosis can detect chromosomal abnormalities in embryos.

(314) The acentric chromosome was identified as a result of a chromosomal translocation.

(315) Chromosomal abnormalities involving autosomes can lead to developmental disorders.

(316) The karyotypic analysis revealed a chromosomal abnormality in the patient's cells.

(317) Preimplantation screening can help identify embryos with chromosomal abnormalities.

(318) The polytene banding pattern can be used to identify different chromosomal regions.

(319) Telomeres are crucial for maintaining chromosomal stability during DNA replication.

(320) The occurrence of a chromosomal mutation can increase the risk of certain diseases.

(321) The occurrence of a chromosomal mutation can lead to the loss of genetic diversity.

(322) Monosomy can be caused by errors during cell division or chromosomal rearrangements.

(323) Prenatal diagnosis can help identify chromosomal abnormalities in a developing baby.

(324) Down's syndrome is a chromosomal disorder that occurs randomly and is not inherited.

(325) The polytene banding pattern is used to map genes onto specific chromosomal regions.

(326) A karyotype can help determine the presence of chromosomal abnormalities in a fetus.

(327) If an individual is euploid, their chromosomal makeup falls within the normal range.

(328) The formation of an acentric chromosome can occur due to chromosomal rearrangements.

(329) The karyological analysis revealed chromosomal abnormalities in the patient's cells.

(330) The karyological examination revealed a chromosomal translocation in the individual.

(331) The karyological analysis confirmed the presence of a specific chromosomal deletion.

(332) Karyological research has contributed to our understanding of chromosomal evolution.

(333) The micronucleus assay is a reliable method for detecting chromosomal abnormalities.

(334) The failure of bivalents to separate properly can lead to chromosomal abnormalities.

(335) The failure of synapsis can lead to chromosomal abnormalities and genetic disorders.

(336) Chromosomal mutation can result in changes to an organism's physical characteristics.

(337) The chorionic villus is examined for chromosomal abnormalities in prenatal diagnosis.

(338) The chromosomal mutations were responsible for the patient's intellectual disability.

(339) The chromosomal mutations were responsible for the patient's congenital heart defect.

(340) The array karyotypes stores data related to the chromosomal composition of organisms.

(341) Heterochromatin is associated with the formation of condensed chromosomal structures.

(342) Chorionic villus sampling can detect chromosomal abnormalities such as Down syndrome.

(343) Chorionic villus sampling can detect chromosomal abnormalities and genetic disorders.

(344) Microtia can be associated with other genetic syndromes or chromosomal abnormalities.

(345) When centrosomes fail to function properly, it can lead to chromosomal abnormalities.

(346) The acentric chromosome is a result of a faulty chromosomal breakage and fusion event.

(347) The karyological analysis revealed a chromosomal inversion in the individual's genome.

(348) The presence of chromomeres allows for the visualization of chromosomal abnormalities.

(349) The presence of a chromosomal mutation can affect an individual's cognitive abilities.

(350) The presence of abasic DNA can lead to genomic instability and chromosomal aberrations.

(351) The chromosomal abnormalities were detected through fluorescence in situ hybridization.

(352) The amitotically dividing cells exhibited a unique pattern of chromosomal organization.

(353) The genotoxicity of a substance may manifest as mutations or chromosomal abnormalities.

(354) Chondroid tumors can be associated with genetic mutations or chromosomal abnormalities.

(355) The presence of chromosomal aberration can affect an individual's physical development.

(356) The presence of chromomeres allows for the identification of chromosomal abnormalities.

(357) The presence of a chromosomal mutation can affect an individual's physical development.

(358) A chromosomal mutation can cause structural abnormalities in an organism's chromosomes.

(359) The presence of abasic DNA can lead to DNA strand breaks and chromosomal rearrangements.

(360) Amphiploids can be used to study the effects of chromosomal rearrangements on fertility.

(361) The study of cytogenetics has revealed the complex nature of chromosomal rearrangements.

(362) The failure of karyokinesis can lead to chromosomal abnormalities and genetic disorders.

(363) Autosomal disorders can be caused by both point mutations and chromosomal abnormalities.

(364) Chromomeres are involved in the formation of chromosomal territories within the nucleus.

(365) The chromomere's arrangement can be used to identify specific chromosomal abnormalities.

(366) The effects of a chromosomal mutation can vary depending on the specific genes involved.

(367) Cytogenetical analysis revealed a chromosomal abnormality in the patient's blood sample.

(368) Aneuploids can be used as models to study the effects of specific chromosomal imbalances.

(369) The metaphases of the cells were analyzed to identify any structural chromosomal changes.

(370) Diaphragmatic hernia can be associated with genetic factors or chromosomal abnormalities.

(371) The monosomic state can result from errors during cell division or chromosomal mutations.

(372) Errors in reduction division can lead to chromosomal abnormalities and genetic disorders.

(373) Euploid cells have a regular and predictable chromosomal segregation during cell division.

(374) The study of aneuploids has contributed to our understanding of chromosomal abnormalities.

(375) Teratomas can sometimes be associated with chromosomal abnormalities or genetic mutations.

(376) The karyological analysis showed a high degree of chromosomal instability in cancer cells.

(377) Down's syndrome is typically diagnosed shortly after birth through a chromosomal analysis.

(378) Monosomics are individuals with a chromosomal abnormality where one chromosome is missing.

(379) Polygenic traits can be influenced by genetic variations at different chromosomal regions.

(380) Hematopathy can be associated with certain genetic mutations or chromosomal abnormalities.

(381) Chromomeres, which are markers of chromosomal instability, can be used in cancer research.

(382) The karyological investigation revealed a unique chromosomal rearrangement in the species.

(383) Chromosomal abnormalities can be associated with a range of symptoms, from mild to severe.

(384) Congenital heart defects can be associated with other genetic or chromosomal abnormalities.

(385) The study of chromomeres has contributed to our understanding of chromosomal abnormalities.

(386) Down syndrome is a chromosomal disorder that affects the development of the brain and body.

(387) Genetic diseases can be caused by mutations in specific genes or chromosomal abnormalities.

(388) The woman's doctor explained that most miscarriages occur due to chromosomal abnormalities.

(389) Autopolyploids can have altered chromosomal rearrangements compared to diploid individuals.

(390) Monosomic cells can be used to study the effects of specific genes and chromosomal regions.

(391) The doctor explained that the congenital anomaly was a result of a chromosomal abnormality.

(392) The doctor explained that the congenital disease was a result of a chromosomal abnormality.

(393) The karyological investigation revealed a rare chromosomal rearrangement in the individual.

(394) The karyological analysis indicated a high degree of chromosomal stability in the organism.

(395) Karyological research has provided insights into the mechanisms of chromosomal replication.

(396) Euploid individuals are less prone to genetic disorders caused by chromosomal abnormalities.

(397) The karyological examination confirmed the presence of a specific chromosomal translocation.

(398) Mutations in kinetochore proteins can lead to chromosomal instability and genetic disorders.

(399) Researchers use cytogeny to investigate the role of chromosomal rearrangements in evolution.

(400) Cytogeny has helped in the identification of chromosomal abnormalities in infertility cases.

(401) The intercalating agent intercalates with the DNA molecule to cause chromosomal aberrations.

(402) Cytogenetic testing is often used in prenatal screening to detect chromosomal abnormalities.

(403) The fertilisation process can be affected by genetic abnormalities or chromosomal disorders.

(404) Chromosomal mutation can have significant implications for the future of genetic engineering.

(405) Researchers used restriction mapping to study the chromosomal rearrangements in cancer cells.

(406) Submetacentric chromosomes can undergo structural changes through chromosomal rearrangements.

(407) Monosomic individuals may have a higher risk of chromosomal abnormalities in their offspring.

(408) Chromomeres, which are markers of chromosomal rearrangements, can be used in genetic mapping.

(409) The accumulation of abasic sites can lead to chromosomal aberrations and genomic instability.

(410) The chromosomal abnormalities were identified through array comparative genomic hybridization.

(411) The study of cytogeny has led to the discovery of chromosomal disorders such as Down syndrome.

(412) Allopolyploids can have altered patterns of gene recombination and chromosomal rearrangements.

(413) Spermatogenetic mutations can result in the production of sperm with chromosomal abnormalities.

(414) The cytogenetic abnormalities observed in this patient's cells indicate a chromosomal disorder.

(415) Heteroploid individuals may have a higher risk of chromosomal abnormalities in their offspring.

(416) The translocations array provides information on the breakpoints of chromosomal rearrangements.

(417) The symptoms of triploidy can vary depending on the specific chromosomal abnormalities present.

(418) Monosomic fruit flies are commonly used in genetic research to study chromosomal abnormalities.

(419) The cytogeneticist used advanced technology to identify chromosomal abnormalities in the fetus.

(420) Chromosomal abnormalities can lead to genetic disorders, but they can also occur spontaneously.

(421) The metaphases of the cells were analyzed to determine the frequency of chromosomal aberrations.

(422) Euploid individuals exhibit a balanced chromosomal composition, ensuring proper gene expression.

(423) Euploid cells have a balanced chromosomal content, preventing disruptions in cellular processes.

(424) The karyological analysis indicated a high level of chromosomal diversity within the population.

(425) The study of acrocentric chromosomes has led to a better understanding of chromosomal evolution.

(426) Chromosomal abnormalities can be inherited from one or both parents, or they can occur randomly.

(427) When chromomeres are disrupted, they can lead to chromosomal abnormalities and genetic disorders.

(428) The karyological analysis showed a correlation between chromosomal abnormalities and infertility.

(429) The failure of karyokinetic division can lead to chromosomal abnormalities and genetic disorders.

(430) The presence of chromosomal aberration can affect an individual's physical and mental development.

(431) The transposon-mediated chromosomal rearrangements can have significant evolutionary consequences.

(432) The occurrence of a chromosomal mutation can disrupt the normal functioning of an organism's genes.

(433) Myelodysplasia can be associated with chromosomal abnormalities, such as deletion or translocation.

(434) Chromosomal rearrangements can result in gene fusions, which can lead to the development of cancer.

(435) Exomphalos can be associated with chromosomal abnormalities, so genetic testing may be recommended.

(436) The karyotypes array can reveal the presence of chromosomal abnormalities that may affect fertility.

(437) Euploid organisms have a higher chance of survival compared to those with chromosomal abnormalities.

(438) Cytogenetics is often used in prenatal testing to detect chromosomal abnormalities in unborn babies.

(439) The chromosomal abnormalities were detected through multiplex ligation-dependent probe amplification.

(440) The cytogeneticist's research shed light on the mechanisms of chromosomal translocations in leukemia.

(441) The study of cytogeny has led to the identification of chromosomal abnormalities in prenatal testing.

(442) If a chromatid fails to properly separate during mitosis, it can result in chromosomal abnormalities.

(443) The cytogeneticist's research focused on the impact of environmental factors on chromosomal stability.

(444) Cytogeny has provided insights into the evolution of species through the study of chromosomal changes.

(445) Euploid individuals have a lower risk of infertility compared to those with chromosomal abnormalities.

(446) The failure of anaphase to occur properly can lead to chromosomal abnormalities and genetic disorders.

(447) The cytogeneticist developed new techniques for studying chromosomal abnormalities in prenatal samples.

(448) The translocations array helps researchers understand the mechanisms behind chromosomal rearrangements.

(449) The translocations array provides information on the size and complexity of chromosomal rearrangements.

(450) Monosomics may have a shorter life expectancy compared to individuals with a normal chromosomal makeup.

(451) Genetic screening is commonly used in prenatal care to identify chromosomal abnormalities in the fetus.

(452) How exciting is it that the chromomere's arrangement can be used to identify chromosomal abnormalities!

(453) Treatment options for chromosomal aberration depend on the specific type and severity of the condition.

(454) The cytogeneticist published a groundbreaking study on the role of chromosomal rearrangements in cancer.

(455) Monosomic conditions can be diagnosed through genetic testing and analysis of chromosomal abnormalities.

(456) Chromomeres, which are involved in chromosomal pairing, ensure accurate segregation of genetic material.

(457) If a chromatid is damaged by mutagens, it may result in genetic mutations or chromosomal rearrangements.

(458) The karyological analysis showed a correlation between certain chromosomal abnormalities and infertility.

(459) Cytogenetics is an essential tool in prenatal testing for detecting chromosomal abnormalities in fetuses.

(460) The restriction map provided insights into the chromosomal rearrangements that occurred during evolution.

(461) The study of chromosomal structure is complex, yet it is essential for understanding genetic inheritance.

(462) Cytogenetic studies have provided insights into the mechanisms of chromosomal instability in cancer cells.

(463) Monosomic cells can be used in laboratory settings to study the effects of specific chromosomal deletions.

(464) Chromomeres can be used as markers to study chromosomal rearrangements associated with cancer development.

(465) If a chromatid is not properly aligned on the metaphase plate, it may result in chromosomal abnormalities.

(466) If a chromatid fails to properly segregate during cell division, it may result in chromosomal instability.

(467) The germ plasm is protected by various mechanisms, such as DNA repair enzymes and chromosomal segregation.

(468) Aneuploids can be generated through the loss or gain of whole chromosomes or specific chromosomal segments.

(469) Karyotyping is often performed during prenatal testing to check for chromosomal abnormalities in the fetus.

(470) The cytogenetics research team is studying the impact of environmental factors on chromosomal abnormalities.

(471) Chromosomal aberration can occur spontaneously or as a result of exposure to certain chemicals or radiation.

(472) Proto-oncogenes can be activated by genetic alterations such as point mutations or chromosomal rearrangements.

(473) The cytogenetics research team is investigating the role of chromosomal rearrangements in disease development.

(474) Chromomeres are often used as markers to study chromosomal abnormalities, such as translocations or inversions.

(475) Polytene chromosomes are a useful tool for studying the evolution of gene regulation and chromosomal structure.

(476) Polysomic conditions can be detected through genetic testing and analysis of an individual's chromosomal makeup.

(477) Down's syndrome is a chromosomal disorder that affects the physical and intellectual development of individuals.

(478) The banding pattern of polytene chromosomes can be used to study gene expression and chromosomal rearrangements.

(479) Preimplantation screening can help identify embryos with a higher chance of developing chromosomal abnormalities.

(480) Karyotyping can be used to identify chromosomal abnormalities that may be responsible for recurrent miscarriages.

(481) Fallot can be associated with other congenital abnormalities, such as chromosomal disorders or genetic syndromes.

(482) Cytogenetic studies have identified specific chromosomal rearrangements associated with certain types of leukemia.

(483) The chromomere is involved in the formation of higher-order chromatin structures, such as chromosomal territories.

(484) Euploid individuals have a better chance of reproductive success compared to those with chromosomal abnormalities.

(485) If the branchial arches are affected by chromosomal abnormalities, it may result in multiple congenital anomalies.

(486) Euploid organisms have a higher chance of successful reproduction compared to those with chromosomal abnormalities.

(487) The study of chromosomal structure and function has revealed important insights into the mechanisms of inheritance.

(488) When centrosomes malfunction, it can lead to chromosomal abnormalities and contribute to the development of cancer.

(489) The karyological analysis showed a correlation between certain chromosomal abnormalities and disease susceptibility.

(490) Euploid individuals have a better chance of passing on their genes compared to those with chromosomal abnormalities.

(491) Euploid individuals have a lower risk of certain genetic disorders compared to those with chromosomal abnormalities.

(492) Couples experiencing habitual abortion may need to undergo genetic testing to identify any chromosomal abnormalities.

(493) Researchers use the translocations array to study the impact of chromosomal rearrangements on an organism's phenotype.

(494) Euploid organisms have a greater chance of surviving and reproducing compared to those with chromosomal abnormalities.

(495) Cytogenetics is a field of study that focuses on the relationship between chromosomal abnormalities and cell division.

(496) Aneuploids can be used in research to investigate the effects of specific chromosomal imbalances on cellular processes.

(497) Polysomic individuals may exhibit different physical characteristics compared to those with a normal chromosomal count.

(498) Euploid organisms have a higher chance of survival in harsh environments compared to those with chromosomal abnormalities.

(499) The translocations array provides insights into the evolutionary history of species by studying chromosomal rearrangements.

(500) The unique banding pattern of polytene chromosomes allows for the identification of specific genes and chromosomal regions.

(501) If hydramnios is suspected, the healthcare provider may recommend genetic testing to rule out any chromosomal abnormalities.

(502) Euploid organisms have a higher chance of adapting to environmental changes compared to those with chromosomal abnormalities.

(503) The formation of allotetraploids can result in the loss or gain of specific genomic regions through chromosomal rearrangements.

(504) The chromomere is involved in the formation of chromosomal loops, which facilitate interactions between distant genomic regions.

(505) The study of chromosomal evolution can shed light on the relationships between different species and their evolutionary history.

(506) Acrocentric chromosomes are often involved in chromosomal abnormalities, such as translocations, which can lead to genetic disorders.

(507) When the endosarc fails to properly distribute the genetic material, it can result in chromosomal abnormalities and genetic disorders.

(508) The identification of chromosomal abnormalities in cancer cells can provide important diagnostic and prognostic information for patients.

(509) Genetic counseling can help individuals understand their risk of chromosomal abnormalities, and it can provide guidance for family planning.

(510) The inheritance of chromosomal abnormalities can follow different patterns, such as autosomal dominant or recessive, or X-linked inheritance.

(511) While duplications can increase the amount of genetic material in a genome, they can also lead to chromosomal instability and an increased risk of cancer.

(512) Chromosomes can be visualized using a technique called karyotyping, which allows for the identification of chromosomal abnormalities and genetic disorders.

(513) The presence of chromosomal abnormalities in a fetus can be detected through prenatal testing, allowing parents to make informed decisions about their pregnancy.

(514) The study of chromosomal abnormalities in model organisms can provide insights into the molecular mechanisms of genetic diseases and potential therapeutic targets.

(515) While some chromosomal disorders are relatively mild and may not cause significant health problems, others can be life-threatening and require ongoing medical management.

(516) The detection of chromosomal abnormalities in embryos through preimplantation genetic testing can help prevent the transmission of genetic disorders to future generations.

(517) Although chromosomal disorders cannot be cured, many can be managed with medications, surgery, and other treatments, and early intervention can improve outcomes and quality of life.

(518) While some chromosomal disorders are caused by deletions or duplications of genetic material, others are caused by translocations, inversions, or other structural changes to the chromosomes.

(519) Although chromosomal mutations can occur spontaneously, they can also be inherited from one or both parents, and the risk of passing them on to offspring varies depending on the type of mutation.

(520) While dysgenesis is often caused by genetic mutations or chromosomal abnormalities, environmental factors such as exposure to toxins or radiation can also increase the risk of developing this condition.

(521) Although chromosomal testing is not always necessary, it can be helpful in cases where there is a family history of genetic disorders or when a child is born with physical or developmental abnormalities.

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