Diploid in a sentence
Synonym: two-fold, double. Antonym: haploid
Meaning: Having two sets of chromosomes; characteristic of most organisms.
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(1) Somatic cells are diploid.
(2) The oosperm is a diploid cell.
(3) The daughter-cell is a diploid cell.
(4) The spermatogonium is a diploid cell.
(5) The ploidy of this organism is diploid.
(6) Diploid cells have two copies of each gene.
(7) The ploidy level of this species is diploid.
(8) The primary spermatocytes are diploid cells.
(9) The diploid number of chromosomes in humans is 46.
(10) Amphiploidy occurs when two diploid cells combine.
Diploid sentence
(11) The diploid number is represented by the symbol 2n.
(12) Antherozoids are haploid, whereas the egg is diploid.
(13) Apospory can occur in both diploid and triploid plants.
(14) Diploid cells can divide through the process of mitosis.
(15) Apogamies can occur in both diploid and triploid plants.
(16) The ploidy of this animal is diploid, like most mammals.
(17) Diplontic organisms have a diploid genome in their cells.
(18) The spermatogonium is a diploid cell with 46 chromosomes.
(19) Amphidiploidy can occur in both haploid and diploid cells.
(20) The gametophyte is haploid, and the sporophyte is diploid.
Diploid make sentence
(21) The diploid number of chromosomes is halved during meiosis.
(22) Haploid cells undergo fertilization to form a diploid zygote.
(23) Thaliana is a diploid species with a relatively small genome.
(24) Agamospermies can occur in both diploid and polyploid plants.
(25) The gametophyte is the stage where the plant becomes diploid.
(26) Diploid cells are formed through the process of fertilization.
(27) Amphidiploidy can occur in both haploid and diploid organisms.
(28) Amphiploidies can result from the fusion of two diploid cells.
(29) The ploidy of this species varies between haploid and diploid.
(30) The gametangium is found in both haploid and diploid organisms.
Sentence of diploid
(31) Apogamies can occur in both diploid and polyploid plant species.
(32) In the life cycle of a plant, sporophytes are the diploid phase.
(33) Amphidiploidies can result from the fusion of two diploid cells.
(34) The diploid number of chromosomes varies among different species.
(35) The gametophyte undergoes fertilization to form a diploid zygote.
(36) Amphidiploidy can occur in both diploid and tetraploid organisms.
(37) The archegoniate life cycle includes a haploid and diploid phase.
(38) The diploid stage of a moss's life cycle is called the sporophyte.
(39) The diploid stage of a fern's life cycle is called the sporophyte.
(40) The diploid stage of a plant's life cycle is called the sporophyte.
Diploid meaningful sentence
(41) Sporophytic plants have a diploid chromosome number in their cells.
(42) The archegoniate sporophyte is the diploid phase of the life cycle.
(43) The occurrence of syngamy leads to the formation of a diploid cell.
(44) The octoploid genome is more complex than that of diploid organisms.
(45) Triploid plants can have increased yield compared to diploid plants.
(46) Karyogamy is a fundamental process in the formation of diploid cells.
(47) Spermatocytes are diploid cells that divide to produce haploid cells.
(48) Amphiploids can be created by crossing diploid and tetraploid plants.
(49) Somatic cells are diploid, meaning they have two sets of chromosomes.
(50) The diploid stage of an animal's life cycle is called the adult stage.
Diploid sentence examples
(51) Octoploid organisms may have a longer lifespan than diploid organisms.
(52) The number of bivalents is determined by the diploid chromosome count.
(53) The process of amphidiploidy involves the fusion of two diploid cells.
(54) The allotetraploid wheat has a higher yield than its diploid ancestor.
(55) The diplontic life cycle is characterized by a dominant diploid stage.
(56) Allopatric speciation can occur in both haploid and diploid organisms.
(57) Diploid cells can repair damaged DNA through the process of DNA repair.
(58) Diplontic organisms undergo fertilization to restore the diploid state.
(59) The triploid plant produced larger fruits than its diploid counterpart.
(60) The diploid number of chromosomes is important for proper cell division.
Sentence with diploid
(61) The diplontic phase of the life cycle is characterized by diploid cells.
(62) Diplontic organisms have a diploid number of chromosomes in their cells.
(63) Autotetraploids can have larger cells and organs than diploid organisms.
(64) Diplontic organisms undergo a distinct diploid phase in their life cycle.
(65) The triploid fish had a higher muscle mass than its diploid counterparts.
(66) Haploid organisms have a shorter life cycle compared to diploid organisms.
(67) The diploid stage of a fungus's life cycle is called the dikaryotic stage.
(68) Diploid organisms can have different combinations of genes for each trait.
(69) The diploid number of chromosomes is important for proper gene expression.
(70) Triploid individuals may have altered metabolism compared to diploid ones.
Use diploid in a sentence
(71) Amphimixes is a process that occurs in both haploid and diploid organisms.
(72) Diploid organisms can produce haploid cells through the process of meiosis.
(73) Diploid organisms can have different combinations of alleles for each gene.
(74) Haploid organisms have a higher mutation rate compared to diploid organisms.
(75) Autotetraploid organisms can have altered behavior compared to diploid ones.
(76) Triploid animals may have altered mating behaviors compared to diploid ones.
(77) Triploid plants may have altered fruit development compared to diploid ones.
(78) The microsporocyte is a diploid cell that gives rise to haploid microspores.
(79) Diploid organisms can have different genotypes based on their genetic makeup.
(80) Triploid plants may have altered flowering patterns compared to diploid ones.
Sentence using diploid
(81) Autopolyploids can have altered growth rates compared to diploid individuals.
(82) The allotetraploid salmon has a higher growth rate than its diploid ancestor.
(83) The allotetraploid carp has a higher survival rate than its diploid ancestor.
(84) Tetraploids are often larger and more robust than their diploid counterparts.
(85) Haploid organisms have a simpler genetic makeup compared to diploid organisms.
(86) Diploid organisms can have different phenotypes based on their genetic makeup.
(87) Autotetraploid organisms can have altered metabolism compared to diploid ones.
(88) Triploid individuals can have altered hormone levels compared to diploid ones.
(89) The word diploid refers to a type of organism that has two sets of chromosomes.
(90) The fusion of nuclei during karyogamy leads to the formation of a diploid cell.
Diploid example sentence
(91) Haploid organisms have a higher rate of evolution compared to diploid organisms.
(92) Haploid organisms have a higher genetic diversity compared to diploid organisms.
(93) Octoploid individuals may have a higher fertility rate than diploid individuals.
(94) Monoploid organisms have a simpler genetic makeup compared to diploid organisms.
(95) Autotetraploid organisms can have altered growth rates compared to diploid ones.
(96) The successful completion of karyogamy leads to the formation of a diploid cell.
(97) Triploid individuals can have altered immune responses compared to diploid ones.
(98) Autopolyploids can have altered flowering times compared to diploid individuals.
(99) Autopolyploids can have altered leaf morphology compared to diploid individuals.
(100) Autopolyploids can have altered seed production compared to diploid individuals.
Sentence with word diploid
(101) Autopolyploids can have altered gene regulation compared to diploid individuals.
(102) Diplontic organisms have a diploid number of chromosomes in their somatic cells.
(103) The triploid organism exhibited slower growth compared to its diploid relatives.
(104) The karyological examination showed a diploid number of chromosomes in the cell.
(105) Diploid organisms have the potential to produce offspring with genetic variation.
(106) The diploid number of chromosomes is important for maintaining genetic stability.
(107) The diploid number of chromosomes is important for maintaining genetic diversity.
(108) Monoploid organisms have a lower genetic diversity compared to diploid organisms.
(109) Autotetraploid individuals may have increased fertility compared to diploid ones.
(110) Heteroploid organisms may have different mating behaviors than diploid organisms.
Sentence of diploid
(111) Heteroploid individuals may have reduced fitness compared to diploid individuals.
(112) Triploid organisms can have altered growth rates compared to diploid individuals.
(113) Autopolyploids can have altered pollen viability compared to diploid individuals.
(114) Autopolyploids can have altered meiotic behavior compared to diploid individuals.
(115) Polyploid animals may have larger body sizes compared to their diploid relatives.
(116) The apospory process can result in the formation of haploid or diploid offspring.
(117) Monoploid organisms can have a higher mutation rate compared to diploid organisms.
(118) Autotetraploid organisms have a higher genetic diversity compared to diploid ones.
(119) Triploid animals may have altered behavior compared to their diploid counterparts.
(120) Triploid organisms can be created through the fusion of haploid and diploid cells.
Diploid used in a sentence
(121) Autopolyploids can have altered root architecture compared to diploid individuals.
(122) Autopolyploids can have altered gene interactions compared to diploid individuals.
(123) Polyploid animals may have difficulty reproducing with their diploid counterparts.
(124) The triploid organism had an altered metabolism compared to its diploid relatives.
(125) The allotetraploid frog has a unique mating call compared to its diploid ancestor.
(126) Autotetraploids can exhibit altered gene expression compared to diploid organisms.
(127) The gametophytic cells of fungi are haploid and can fuse to form a diploid zygote.
(128) Hexaploid species are often more complex and diverse than their diploid relatives.
(129) Octoploid animals may have a higher metabolic rate than their diploid counterparts.
(130) Diplontic reproduction involves the alternation between haploid and diploid stages.
Diploid sentence in English
(131) Triploid individuals may have a higher growth rate compared to diploid individuals.
(132) Autopolyploids can have altered gene dosage effects compared to diploid individuals.
(133) The fusion of haploid gametes during syngamy restores the diploid chromosome number.
(134) Sporophytes are the diploid generation in the alternation of generations life cycle.
(135) Autopolyploid species can have reproductive barriers with their diploid progenitors.
(136) The allotetraploid grape has improved wine quality compared to its diploid ancestor.
(137) The allotetraploid peanut has improved oil content compared to its diploid ancestor.
(138) Zygospores are formed when two haploid cells fuse together to create a diploid cell.
(139) Haploid organisms have a higher reproductive potential compared to diploid organisms.
(140) Triploid organisms can have unique phenotypic traits not seen in diploid individuals.
(141) Triploid organisms can have altered reproductive strategies compared to diploid ones.
(142) Antherozoids, which are haploid cells, combine with the egg to form a diploid zygote.
(143) Triploid organisms may have a higher genetic diversity compared to diploid organisms.
(144) The gametophyte produces haploid gametes, and the sporophyte produces diploid spores.
(145) The allotetraploid apple has improved fruit quality compared to its diploid ancestor.
(146) The Xenopus laevis has a diploid genome size of approximately 3.1 billion base pairs.
(147) Autopolyploids can have altered fruit characteristics compared to diploid individuals.
(148) Autopolyploids can have altered reproductive barriers compared to diploid individuals.
(149) The allotetraploid cotton has improved fiber quality compared to its diploid ancestor.
(150) Triploid individuals can have altered developmental processes compared to diploid ones.
(151) Autopolyploids can have larger and more robust flowers compared to diploid individuals.
(152) Autopolyploids can have altered seed germination rates compared to diploid individuals.
(153) The allotetraploid oat has improved nutritional value compared to its diploid ancestor.
(154) Amphidiploid plants have twice the number of chromosomes as their diploid counterparts.
(155) Heteroploid organisms may have reduced fertility compared to their diploid counterparts.
(156) Heteroploid organisms may have altered metabolic pathways compared to diploid organisms.
(157) Heteroploid organisms may have different reproductive strategies than diploid organisms.
(158) Triploid individuals may have different physiological characteristics than diploid ones.
(159) The life cycle of Chlamydomonas involves alternating between haploid and diploid stages.
(160) The life cycle of some plants involves digenesis, with a haploid and diploid generation.
(161) Polyploids can have altered gene expression patterns compared to their diploid relatives.
(162) Autotetraploid species can have altered reproductive strategies compared to diploid ones.
(163) Heteroploid species can have unique genetic characteristics not found in diploid species.
(164) Triploid animals may have altered growth patterns compared to their diploid counterparts.
(165) Autopolyploids can have altered epigenetic modifications compared to diploid individuals.
(166) Allopolyploids often have larger cells and organs compared to their diploid counterparts.
(167) The tetraploid individual had twice the number of chromosomes as its diploid counterpart.
(168) The allotetraploid maize has improved drought tolerance compared to its diploid ancestor.
(169) Autopolyploid organisms can have larger cells and organs than their diploid counterparts.
(170) Autopolyploid organisms can have altered growth rates compared to their diploid relatives.
(171) Autopolyploids can have different reproductive strategies compared to diploid individuals.
(172) The allotetraploid strawberry has larger fruit and higher yield than its diploid ancestor.
(173) The process of amphimixis involves the fusion of haploid gametes to form a diploid zygote.
(174) Autopolyploid plants can be more resistant to environmental stressors than diploid plants.
(175) Double fertilization results in the formation of a diploid zygote and a triploid endosperm.
(176) The ploidy of the cells in this tissue sample is consistent with a normal diploid organism.
(177) Autopolyploids can have altered response to abiotic stress compared to diploid individuals.
(178) Autopolyploids can have altered chromosomal rearrangements compared to diploid individuals.
(179) Polyploid organisms can have different levels of fertility compared to diploid individuals.
(180) The allotetraploid potato has improved disease resistance compared to its diploid ancestor.
(181) The allotetraploid tomato has improved disease resistance compared to its diploid ancestor.
(182) Autopolyploid individuals can have larger cell sizes compared to their diploid counterparts.
(183) Triploid organisms can have altered cell division processes compared to diploid individuals.
(184) Autopolyploids can exhibit altered gene expression patterns compared to diploid individuals.
(185) Autopolyploids can have a higher level of genetic diversity compared to diploid individuals.
(186) Autopolyploids can have altered patterns of gene expression compared to diploid individuals.
(187) Autopolyploid individuals can have altered growth rates compared to their diploid relatives.
(188) Autopolyploid species can have different levels of gene flow with their diploid progenitors.
(189) Autotetraploid organisms have twice the number of chromosomes as their diploid counterparts.
(190) Diploid cells can give rise to specialized cell types through the process of differentiation.
(191) Polyploids can have different phenotypic characteristics compared to their diploid ancestors.
(192) Triploid organisms can have altered gene expression patterns compared to diploid individuals.
(193) Polyploid organisms can have different levels of gene dosage compared to diploid individuals.
(194) Autotetraploids can exhibit altered phenotypic traits compared to their diploid counterparts.
(195) Hexaploid organisms have three times the number of chromosomes as their diploid counterparts.
(196) Polyploids often exhibit larger and more robust traits compared to their diploid counterparts.
(197) Tetraploid animals may have different physical characteristics than their diploid counterparts.
(198) Autotetraploid species can have different ecological roles compared to their diploid relatives.
(199) The genetic makeup of an amphidiploid organism is more complex than that of a diploid organism.
(200) Autopolyploid individuals can have altered leaf morphology compared to their diploid relatives.
(201) Autopolyploids can have altered response to biotic interactions compared to diploid individuals.
(202) Autopolyploid individuals can have higher fertility rates compared to their diploid counterparts.
(203) Autotetraploids often exhibit larger cell and organ sizes compared to their diploid counterparts.
(204) Allotetraploids often exhibit increased genetic diversity compared to their diploid counterparts.
(205) Autopolyploid individuals can have altered phenotypic traits compared to their diploid relatives.
(206) Autopolyploid individuals can have altered root architecture compared to their diploid relatives.
(207) The sporophytic tissue of a plant is typically diploid, while the gametophytic tissue is haploid.
(208) In meiosis, a diploid cell splits up into four haploid cells with half the number of chromosomes.
(209) Autotetraploids can be created through the use of chemicals or by crossing two diploid organisms.
(210) Autopolyploid individuals can have altered leaf morphology compared to their diploid counterparts.
(211) Autotetraploid animals may have different mating behaviors compared to their diploid counterparts.
(212) Hexaploid species often exhibit increased vigor and growth compared to their diploid counterparts.
(213) Autopolyploids can have a higher tolerance to environmental stress compared to diploid individuals.
(214) Allotetraploids can exhibit altered gene expression patterns compared to their diploid progenitors.
(215) Oogamy is a complex process that involves the fusion of two haploid cells to form a diploid zygote.
(216) Autopolyploid individuals can have altered root architecture compared to their diploid counterparts.
(217) Autopolyploids often exhibit increased vigor and larger size compared to their diploid counterparts.
(218) Hexaploid organisms have a higher level of genetic diversity compared to diploid or tetraploid ones.
(219) Amphidiploid organisms often have larger cells and increased cell size compared to diploid organisms.
(220) Autopolyploid individuals can have altered reproductive barriers compared to their diploid relatives.
(221) The allotetraploid soybean has improved yield and nutritional value compared to its diploid ancestor.
(222) Autotetraploids can have different physical and biochemical properties compared to diploid organisms.
(223) Autopolyploid species can have higher levels of genetic diversity compared to their diploid relatives.
(224) Archegoniates have a complex life cycle that involves alternation between a haploid and diploid phase.
(225) Autopolyploids can exhibit increased resistance to diseases and pests compared to diploid individuals.
(226) Autopolyploid organisms can have altered gene expression patterns compared to their diploid relatives.
(227) Brown algae have a unique life cycle that involves alternation between haploid and diploid generations.
(228) Heteroploid individuals may exhibit different physical characteristics than their diploid counterparts.
(229) Autopolyploid individuals can have altered reproductive strategies compared to their diploid relatives.
(230) Autopolyploid individuals can have altered gene expression patterns compared to their diploid relatives.
(231) Autopolyploid organisms can have altered patterns of gene silencing compared to their diploid relatives.
(232) The archegonia in archegoniates are typically only present during the diploid phase of their life cycle.
(233) The protostele is a key feature of the fern life cycle, which includes both a haploid and diploid phase.
(234) Autopolyploid organisms can have altered patterns of DNA methylation compared to their diploid relatives.
(235) Amphidiploid organisms often exhibit increased vigor and fertility compared to their diploid counterparts.
(236) Allopolyploid organisms often have larger cells and increased biomass compared to their diploid relatives.
(237) Allotetraploids can have increased fertility and reproductive success compared to their diploid relatives.
(238) Autopolyploid plants often exhibit increased vigor and adaptability compared to their diploid counterparts.
(239) The alternation of generations involves a cycle of a haploid and diploid phase in an organism's life cycle.
(240) The fucus plant has a complex life cycle that involves alternation between diploid and haploid generations.
(241) Allopolyploid plants often exhibit increased vigor and adaptability compared to their diploid counterparts.
(242) Autopolyploid organisms can have higher levels of genetic diversity compared to their diploid counterparts.
(243) Allotetraploid plants often exhibit increased vigor and adaptability compared to their diploid counterparts.
(244) Allotetraploid organisms often exhibit altered gene expression patterns compared to their diploid relatives.
(245) Allotetraploid species often exhibit unique phenotypic traits that are not present in their diploid progenitors.
(246) Allotetraploid plants often exhibit increased resistance to pests and diseases compared to their diploid relatives.
(247) Metagenesis is a common phenomenon in the plant kingdom, where plants alternate between a haploid and diploid phase.
(248) The life cycle of a bryophyte involves alternating between a haploid gametophyte and a diploid sporophyte generation.
(249) The term monosome is often used to describe a haploid cell, which has half the number of chromosomes as a diploid cell.
(250) The life cycle of Bryophyta involves alternation of generations between a haploid gametophyte and a diploid sporophyte.
(251) The process of allotetraploidization involves the fusion of two different diploid cells to create a tetraploid organism.
(252) Allotetraploidization can lead to reproductive isolation between the newly formed tetraploid and its diploid progenitors.
(253) The gametophyte is the stage in which the plant is haploid, and the sporophyte is the stage in which the plant is diploid.
(254) Autopolyploids often exhibit increased genetic diversity and can have unique traits compared to their diploid counterparts.
(255) The antherozoids are haploid, whereas the egg is diploid; this genetic difference allows for genetic diversity in offspring.
(256) Allopolyploid wheat is a major crop worldwide, with improved yield and disease resistance compared to its diploid ancestors.
(257) When the ascus is fertilized, it can produce a diploid zygote, which will eventually undergo meiosis to form haploid spores.
(258) The antherozoids are haploid, whereas the egg is diploid; this allows for the fusion of genetic material during fertilization.
(259) Although gametes are haploid cells, they combine during fertilization to form a diploid zygote, which will develop into a new organism.
(260) The gametophyte is the stage in which the plant is haploid and produces gametes, and the sporophyte is the stage in which the plant is diploid and produces spores.
(261) The gametophyte of a liverwort is often leafy and flat, and it is responsible for producing the sperm and egg cells that will eventually fuse to form a diploid zygote.
(262) The gametophyte stage of the moss life cycle is haploid, and it is responsible for producing the sperm and egg cells that will eventually fuse to form a diploid zygote.
(263) The gametophyte of a bryophyte is often small and simple, and it is responsible for producing the sperm and egg cells that will eventually fuse to form a diploid zygote.
(264) When the gametophyte of a fern produces male and female gametes, they will eventually fuse during fertilization to form a diploid zygote that will develop into a sporophyte.
(265) The gametophyte is the stage in which the plant is haploid and produces male and female gametes, and the sporophyte is the stage in which the plant is diploid and produces sporangia.
(266) Heteroploid organisms have an abnormal number of chromosomes, which can lead to a variety of genetic disorders, but they can also exhibit unique traits that are not found in their diploid counterparts.
(267) When the gametophyte of a fern produces male and female gametes, they will eventually fuse during fertilization to form a diploid zygote that will develop into a sporophyte with a distinct frond structure.
(268) The gametophyte of a moss is often small and leafy, and it is responsible for producing the sperm and egg cells that will eventually fuse to form a diploid zygote that will develop into a sporophyte with a distinct capsule structure.
Diploid meaning
Diploid is a term used in genetics to describe a cell or organism that has two sets of chromosomes, one from each parent. This is in contrast to haploid cells, which have only one set of chromosomes. Diploid cells are found in most multicellular organisms, including humans, and are essential for sexual reproduction. If you are looking to use the word diploid in a sentence, there are a few tips to keep in mind. First, it is important to understand the meaning of the word and how it is used in the context of genetics. This will help you to use it correctly and accurately in your sentence. One way to use diploid in a sentence is to describe the genetic makeup of an organism.
For example, you could say, "Humans are diploid organisms, meaning that they have two sets of chromosomes in each of their cells." This sentence accurately describes the genetic makeup of humans and uses the word diploid in the correct context. Another way to use diploid in a sentence is to describe the process of meiosis, which is the cell division process that produces haploid cells from diploid cells.
For example, you could say, "During meiosis, diploid cells divide to produce four haploid cells." This sentence accurately describes the process of meiosis and uses the word diploid in the correct context. When using diploid in a sentence, it is important to be clear and concise. Avoid using overly complex language or technical jargon that may confuse your reader. Instead, focus on using simple, straightforward language that accurately conveys the meaning of the word.
In conclusion, diploid is a term used in genetics to describe a cell or organism that has two sets of chromosomes. When using this word in a sentence, it is important to understand its meaning and how it is used in the context of genetics. By following these tips, you can use diploid accurately and effectively in your writing.
The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Diploid. They do not represent the opinions of TranslateEN.com.