Be Classified Into in a sentence

(1) Hernias can be classified into different types.

(2) Cancer can be classified into different stages.

(3) Bacteria can be classified into different species.

(4) Epilepsies can be classified into different types.

(5) Neurites can be classified into axons and dendrites.

(6) Phonemes can be classified into different categories.

(7) Serovars can be classified into different serogroups.

(8) Invertebrates can be classified into different phyla.

(9) Aliments can be classified into different food groups.

(10) The plant organ can be classified into different types.

Be Classified Into sentence

(11) Lymphocytes can be classified into B cells and T cells.

(12) The brain cells can be classified into different types.

(13) Protozoan can be classified into four different groups.

(14) Prokaryotes can be classified into bacteria and archaea.

(15) Micro-organisms can be classified into different groups.

(16) Natural risk can be classified into different categories.

(17) Meningococci can be classified into different serogroups.

(18) Polioviruses can be classified into three different types.

(19) Land-masses can be classified into continents and islands.

(20) Endosomes can be classified into early and late endosomes.

Be Classified Into make sentence

(21) Eubacterial species can be classified into different phyla.

(22) T lymphocytes can be classified into CD4+ and CD8+ subsets.

(23) Aphasias can be classified into fluent and non-fluent types.

(24) Apoenzymes can be classified into different enzyme families.

(25) Business activities can be classified into different sectors.

(26) Prokaryotic organisms can be classified into different phyla.

(27) Consonant sounds can be classified into different categories.

(28) The coccus bacteria can be classified into different species.

(29) Bodyfat can be classified into essential fat and storage fat.

(30) Glaucomas can be classified into primary and secondary types.

Sentence of be classified into

(31) The animals at the zoo can be classified into various species.

(32) The protist can be classified into different taxonomic groups.

(33) The mediae can be classified into voiced and voiceless sounds.

(34) The wines in the cellar can be classified into different types.

(35) The state of matter can be classified into different categories.

(36) The plants in the garden can be classified into different types.

(37) The vehicles on the road can be classified into different types.

(38) Caspases can be classified into initiator and effector caspases.

(39) Hypervisors can be classified into two types: Type 1 and Type 2.

(40) The books in the library can be classified into different genres.

Be Classified Into meaningful sentence

(41) The birds in the aviary can be classified into different species.

(42) Leukocytes can be classified into granulocytes and agranulocytes.

(43) Adipocytes can be classified into white and brown adipose tissue.

(44) Acute myeloid leukemia can be classified into different subtypes.

(45) The songs in the playlist can be classified into different genres.

(46) The morphologies of clouds can be classified into different types.

(47) Hanzi characters can be classified into different character types.

(48) Pulpitis can be classified into reversible and irreversible forms.

(49) The insects in the garden can be classified into different species.

(50) Endosomes can be classified into early endosomes and late endosomes.

Be Classified Into sentence examples

(51) The two-phase flow regime can be classified into different patterns.

(52) The books in the bookstore can be classified into different authors.

(53) Conoids can be classified into different types based on their shape.

(54) Nutriments can be classified into macronutrients and micronutrients.

(55) Allelomorphisms can be classified into dominant and recessive forms.

(56) Economic goods can be classified into durable and non-durable goods.

(57) The memory unit can be classified into primary and secondary memory.

(58) Dichogamy can be classified into two types: protandry and protogyny.

(59) Axons can be classified into different types based on their function.

(60) The movies in the collection can be classified into different genres.

Sentence with be classified into

(61) The books in the bookstore can be classified into different subjects.

(62) The micro-organism can be classified into different taxonomic groups.

(63) Prokaryotes can be classified into two domains: Bacteria and Archaea.

(64) Prokaryotes can be classified into two domains: Archaea and Bacteria.

(65) Demyelinating neuropathies can be classified into different subtypes.

(66) Retinopathy can be classified into different stages based on severity.

(67) The toys in the toy store can be classified into different age groups.

(68) Ferromagnesian minerals can be classified into several mineral groups.

(69) Circuit elements can be classified into passive and active components.

(70) Adiposities can be classified into different grades based on severity.

Use be classified into in a sentence

(71) Pilis can be classified into different types based on their structure.

(72) Lymphoblasts can be classified into B-lymphoblasts and T-lymphoblasts.

(73) Isometries can be classified into direct and indirect transformations.

(74) Categorical data can be classified into different groups or categories.

(75) The countries in the world can be classified into different continents.

(76) The dishes in the recipe book can be classified into different courses.

(77) The students in the university can be classified into different majors.

(78) Ganglia can be classified into different types based on their location.

(79) Naevi can be classified into different types based on their appearance.

(80) The integrability of a function can be classified into different types.

Sentence using be classified into

(81) Kaons can be classified into different types based on their properties.

(82) The acromion can be classified into different types based on its shape.

(83) Igneous rock can be classified into two types: intrusive and extrusive.

(84) The different types of art can be classified into different categories.

(85) Unicellular organisms can be classified into different taxonomic groups.

(86) Carcinoma can be classified into different subtypes based on its origin.

(87) The athletes in the competition can be classified into different sports.

(88) Glycans can be classified into different types based on their structure.

(89) Neurones can be classified into different types based on their function.

(90) The different types of food can be classified into different categories.

Be Classified Into example sentence

(91) The capsid can be classified into different types based on its structure.

(92) The students in the school can be classified into different grade levels.

(93) Pseudogenes can be classified into different types based on their origin.

(94) The different types of music can be classified into different categories.

(95) The different types of games can be classified into different categories.

(96) The employees in the company can be classified into different departments.

(97) Chronic glaucoma can be classified into open-angle and closed-angle types.

(98) The different types of makeup can be classified into different categories.

(99) The different types of shapes can be classified into different categories.

(100) Protozoa can be classified into different groups based on their locomotion.

Sentence with word be classified into

(101) The students in the class can be classified into different academic levels.

(102) The clothes in the store can be classified into different sizes and styles.

(103) Protista can be classified into different groups based on their locomotion.

(104) Chromatins can be classified into different types based on their structure.

(105) Hemocytes can be classified into different types based on their morphology.

(106) Manifolds can be classified into different types based on their properties.

(107) The typology of viruses can be classified into DNA viruses and RNA viruses.

(108) The unit cell can be classified into different types based on its symmetry.

(109) Leukocytes can be classified into different types based on their functions.

(110) The transitiveness of the verb can be classified into different categories.

Sentence of be classified into

(111) Glioma can be classified into different grades based on its aggressiveness.

(112) The different types of weather can be classified into different categories.

(113) Cytokines can be classified into different groups based on their functions.

(114) The dishes in the restaurant menu can be classified into different cuisines.

(115) The products in the supermarket can be classified into different categories.

(116) The movies in the streaming service can be classified into different genres.

(117) Chondrules can be classified into different types based on their mineralogy.

(118) Nonmetals can be classified into different groups based on their properties.

(119) Aerolites can be classified into different types based on their composition.

(120) Polypeptides can be classified into different types based on their function.

Be Classified Into used in a sentence

(121) Biota can be classified into different groups, such as mammals and reptiles.

(122) Nematodes can be classified into different species based on their morphology.

(123) The documents in the filing cabinet can be classified into different folders.

(124) The products in the online store can be classified into different categories.

(125) The words in the dictionary can be classified into different parts of speech.

(126) Antileptons can be classified into different types based on their properties.

(127) Histocytes can be classified into different subtypes based on their function.

(128) Cryoglobulin can be classified into different types based on its composition.

(129) Apoproteins can be classified into different types based on their properties.

(130) Hemolysin can be classified into different types based on its mode of action.

Be Classified Into sentence in English

(131) Epicycloids can be classified into different types based on their appearance.

(132) Adr can be classified into different types based on the body system affected.

(133) Chromos can be classified into different types based on their size and shape.

(134) Plutons can be classified into different types based on their shape and size.

(135) Igneous rocks can be classified into two categories: intrusive and extrusive.

(136) The different types of furniture can be classified into different categories.

(137) The different types of languages can be classified into different categories.

(138) Supernovae can be classified into different types based on their light curves.

(139) The cars in the parking lot can be classified into different makes and models.

(140) Brown algae can be classified into different groups based on their morphology.

(141) Myopathy can be classified into different types based on the affected muscles.

(142) Cocci can be classified into different species based on their characteristics.

(143) Ribonucleic acid can be classified into different types based on its function.

(144) Plant tissue can be classified into different categories based on its function.

(145) Cymes can be classified into different types based on their branching patterns.

(146) Axones can be classified into different types based on their size and function.

(147) Atomies can be classified into different elements based on their atomic number.

(148) Endomorphisms can be classified into different types based on their properties.

(149) Transposons can be classified into different families based on their structure.

(150) Protista can be classified into different phyla based on their characteristics.

(151) Ametropia can be classified into different types, such as myopia and hyperopia.

(152) Ependymoma can be classified into different grades based on its aggressiveness.

(153) Polypeptides can be classified into different types based on their composition.

(154) Final goods can be classified into different categories based on their purpose.

(155) Animals can be classified into different groups based on their characteristics.

(156) The different types of electronics can be classified into different categories.

(157) Trigons can be classified into different types based on their angles and sides.

(158) Nematodes can be classified into different groups based on their feeding habits.

(159) The paintings in the art gallery can be classified into different art movements.

(160) Quasiparticles can be classified into different types based on their properties.

(161) Syndactyly can be classified into different types based on the extent of fusion.

(162) Quadrilaterals can be classified into different types based on their properties.

(163) Algors can be classified into different categories based on their functionality.

(164) Hemolysins can be classified into different types based on their mode of action.

(165) B lymphocytes can be classified into different subsets based on surface markers.

(166) Bacteria can be classified into different groups based on their characteristics.

(167) Microbes can be classified into different groups based on their characteristics.

(168) AlgoRs can be classified into different categories based on their functionality.

(169) Fungicides can be classified into different groups based on their mode of action.

(170) Silicate rocks can be classified into different types based on their composition.

(171) Herbicides can be classified into different groups based on their mode of action.

(172) The patients in the hospital can be classified into different medical conditions.

(173) Leprosy can be classified into different types based on the severity of symptoms.

(174) Autotrophs can be classified into different groups based on their energy sources.

(175) Substantives can be classified into different categories based on their function.

(176) Testates can be classified into different groups based on their shell morphology.

(177) Bacteroid can be classified into different strains based on their genetic makeup.

(178) Hyperplasias can be classified into different types based on the affected tissue.

(179) Ecoregions can be classified into terrestrial, freshwater, and marine categories.

(180) Flora can be classified into different categories based on their characteristics.

(181) Frugivores can be classified into different groups based on their feeding habits.

(182) Solid matter can be classified into different categories based on its composition.

(183) Monomers can be classified into different types based on their chemical structure.

(184) Biohazards can be classified into different levels based on their potential risks.

(185) The dishes in the restaurant can be classified into different dietary preferences.

(186) Consumer goods can be classified into different categories based on their purpose.

(187) Residual soil can be classified into different types based on its characteristics.

(188) Schists can be classified into different types based on their mineral composition.

(189) Boranes can be classified into different types based on their molecular structure.

(190) Observables can be classified into different types based on their characteristics.

(191) Rangelands can be classified into different types based on vegetation and climate.

(192) Magmas can be classified into different types based on their chemical composition.

(193) Monocytes can be classified into different subsets based on their surface markers.

(194) Bacteriocins can be classified into different types based on their mode of action.

(195) Myelomas can be classified into different subtypes based on their characteristics.

(196) Residual soil can be classified into different types based on its mineral content.

(197) Motoneurons can be classified into different types based on their firing patterns.

(198) Heterotrophs can be classified into different types based on their feeding habits.

(199) The chemical properties of a substance can be classified into different categories.

(200) Proto-oncogenes can be classified into different families based on their functions.

(201) Aerobes can be classified into different groups based on their oxygen requirements.

(202) Thrombophilia can be classified into different types based on the underlying cause.

(203) Arenites can be classified into different types based on their mineral composition.

(204) Kerogen can be classified into different types based on its origin and composition.

(205) Biocides can be classified into different categories based on their mode of action.

(206) Toluidines can be classified into three isomers: ortho-, meta-, and para-toluidine.

(207) Hemocytes can be classified into different types based on their shape and function.

(208) Herbivores can be classified into different groups based on their diet and anatomy.

(209) Ecosystems can be classified into different types, such as aquatic and terrestrial.

(210) Commodities can be classified into categories like energy, metals, and agriculture.

(211) Hydrides can be classified into different types based on their chemical composition.

(212) Motoneurons can be classified into different types based on their size and function.

(213) Network topology can be classified into different categories based on its structure.

(214) Alicyclics can be classified into different subcategories based on their structures.

(215) Glucosides can be classified into different types based on their chemical structure.

(216) Neurofibromas can be classified into different types based on their characteristics.

(217) Coenzymes can be classified into different groups based on their chemical structure.

(218) Anaplasias can be classified into different subtypes based on their characteristics.

(219) Astrocytomata can be classified into different grades based on their aggressiveness.

(220) Bacteriotoxins can be classified into different types based on their mode of action.

(221) Anaerobes can be classified into different groups based on their metabolic pathways.

(222) Equities can be classified into different categories based on market capitalization.

(223) Cardiomyopathy can be classified into different types based on its underlying cause.

(224) Micro-organisms can be classified into different groups, such as bacteria and fungi.

(225) Business activities can be classified into primary, secondary, and tertiary sectors.

(226) Tcells can be classified into helper and cytotoxic subsets based on their functions.

(227) Ferromagnets can be classified into hard and soft magnets based on their coercivity.

(228) Bacteria can be classified into different groups based on their shape and structure.

(229) Agglutinogens can be classified into different groups based on their characteristics.

(230) Coagulants can be classified into different types based on their mechanism of action.

(231) Glycosides can be classified into different types based on the type of sugar present.

(232) Staphyloma can be classified into different types based on its location and severity.

(233) Autoantibodies can be classified into different types based on their target antigens.

(234) Landforms can be classified into different categories based on their characteristics.

(235) Neurons can be classified into different types based on their structure and function.

(236) Meteors can be classified into different types based on their composition and origin.

(237) Supracrustal rocks can be classified into different types based on their composition.

(238) Nonlinear equations can be classified into different types based on their properties.

(239) Bacterias can be classified into different groups based on their shape and structure.

(240) Endoergic reactions can be classified into different types based on their mechanisms.

(241) Sulphides can be classified into different types based on their chemical composition.

(242) Trochoids can be classified into different types based on their shape and properties.

(243) Adiposes can be classified into different types based on their location and function.

(244) Bacterioses can be classified into different types based on the affected body system.

(245) Subatomic particles can be classified into different types based on their properties.

(246) Brominisms can be classified into different types based on their reaction mechanisms.

(247) Motor fibers can be classified into different types based on their size and function.

(248) Syndromes can be classified into different categories based on their characteristics.

(249) Chordophones can be classified into different categories based on their construction.

(250) Bacterium can be classified into different groups based on their shape and structure.

(251) Invertebrates can be classified into different groups based on their characteristics.

(252) Geometric shapes can be classified into various categories based on their properties.

(253) Bituminisations can be classified into different types based on their characteristics.

(254) Microorganisms can be classified into different groups based on their characteristics.

(255) Final goods can be classified into different categories based on their use or purpose.

(256) Exoplanets can be classified into different categories based on their characteristics.

(257) Metabolites can be classified into different groups based on their chemical structure.

(258) Differential equations can be classified into various types based on their properties.

(259) Psychoactive drugs can be classified into different categories based on their effects.

(260) Copper-ores can be classified into different types based on their mineral composition.

(261) Macromolecules can be classified into different categories based on their composition.

(262) Chondrites can be classified into different groups based on their mineral composition.

(263) Chromophils can be classified into different types based on the pigments they contain.

(264) Silicates can be classified into different groups based on their chemical composition.

(265) Phenotypes can be classified into different categories based on their characteristics.

(266) Nociceptors can be classified into different types based on their response properties.

(267) Uveitis can be classified into different types based on the affected part of the uvea.

(268) Sensilla can be classified into different types based on their structure and function.

(269) Xenobiotics can be classified into different groups based on their chemical structure.

(270) Bacterials can be classified into different groups based on their shape and structure.

(271) Chromogens can be classified into different groups based on their chemical properties.

(272) Scalenohedra can be classified into different crystal systems based on their symmetry.

(273) Plasmids can be classified into different types based on their replication mechanisms.

(274) Elementary particles can be classified into different types based on their properties.

(275) Agrochemicals can be classified into different categories based on their intended use.

(276) Lymphoblasts can be classified into different subtypes based on their surface markers.

(277) Keratins can be classified into different types based on their amino acid composition.

(278) Pathogenes can be classified into different categories based on their characteristics.

(279) Gneisses can be classified into different types based on their mineralogy and texture.

(280) Leucocytes can be classified into two main categories: granulocytes and agranulocytes.

(281) Antibiotics can be classified into different groups based on their chemical structure.

(282) The different types of kitchen appliances can be classified into different categories.

(283) Ants can be classified into different species based on their physical characteristics.

(284) Microtia can be classified into different types based on the severity of the deformity.

(285) Phytoalexins can be classified into different chemical groups based on their structure.

(286) Plutons can be classified into different categories based on their mineral composition.

(287) Glomerulosclerosis can be classified into different types based on its characteristics.

(288) Carcinogens can be classified into different groups based on their mechanism of action.

(289) Neurocytes can be classified into different types based on their location and function.

(290) The factors of production can be classified into renewable and non-renewable resources.

(291) Geomorphological features can be classified into different types based on their origin.

(292) Andesites can be classified into different subtypes based on their mineral composition.

(293) High-explosives can be classified into different categories based on their composition.

(294) Epithelia can be classified into different types based on their structure and function.

(295) Pharmas can be classified into different categories based on their mechanism of action.

(296) Autacoid can be classified into different categories based on their chemical structure.

(297) Neurites can be classified into different types based on their morphology and function.

(298) Duplications can be classified into different types based on their mechanism of origin.

(299) Hemocyte can be classified into different types based on their morphology and function.

(300) Leucocyte can be classified into different types based on their function and structure.

(301) The different types of musical instruments can be classified into different categories.

(302) Mutagens can be classified into different categories based on their mechanism of action.

(303) Parameter estimation techniques can be classified into frequentist and Bayesian methods.

(304) Refrigerants can be classified into different types based on their chemical composition.

(305) Antibodies can be classified into different types based on their structure and function.

(306) Lung cancer can be classified into different stages based on the extent of tumor spread.

(307) Subatomic particles can be classified into different families based on their properties.

(308) Siderophores can be classified into different groups based on their chemical properties.

(309) Chondrites can be classified into different types based on their mineralogy and texture.

(310) Pathfinding algorithms can be classified into single-source and multi-source algorithms.

(311) Monosaccharide can be classified into different types based on their chemical structure.

(312) Hemocytes can be classified into different types based on their morphology and function.

(313) Brain disease can be classified into different categories based on the underlying cause.

(314) Decomposites can be classified into different types based on their chemical composition.

(315) Biogens can be classified into different categories based on their chemical composition.

(316) Teratomas can be classified into different subtypes based on their cellular composition.

(317) Oxychlorides can be classified into different types based on their chemical composition.

(318) Funguses can be classified into different groups based on their reproductive structures.

(319) Meteoroids can be classified into different types based on their composition and origin.

(320) Demulsifiers can be classified into different types based on their chemical composition.

(321) Erythema multiforme can be classified into different subtypes based on its presentation.

(322) Hematopathy can be classified into different subtypes based on the affected blood cells.

(323) Isomerisms can be classified into structural, stereoisomerism, and tautomeric isomerism.

(324) Autoantibodies can be classified into different subtypes based on their target antigens.

(325) Alloantibodies can be classified into different blood group systems, such as ABO and Rh.

(326) Phytoalexins can be classified into different chemical classes based on their structure.

(327) Autocoids can be classified into different categories based on their chemical structure.

(328) The muscle-fibre can be classified into different types based on their contraction speed.

(329) Nerve cells can be classified into different types based on their structure and function.

(330) Sonants can be classified into different categories based on their place of articulation.

(331) Intrusives can be classified into different types based on their composition and texture.

(332) Oncogenes can be classified into different categories based on their mechanism of action.

(333) Transposons can be classified into different families based on their structural features.

(334) Viroids can be classified into different families based on their genetic characteristics.

(335) Haemocytes can be classified into different types based on their appearance and function.

(336) Pneumokonioses can be classified into different types based on the type of dust involved.

(337) Symbioses can be classified into different types based on the nature of the relationship.

(338) Enterics can be classified into different species based on their genetic characteristics.

(339) Steroid hormone can be classified into different types based on their chemical structure.

(340) Algebras can be classified into different types based on their properties and operations.

(341) Aphicides can be classified into different chemical groups based on their mode of action.

(342) Papilloma can be classified into different subtypes based on its appearance and behavior.

(343) Apocarps can be classified into different types based on their structure and arrangement.

(344) Lymphomata can be classified into different subtypes based on their cell characteristics.

(345) Eubacteria can be classified into different phyla based on their genetic characteristics.

(346) Radwaste can be classified into different categories based on its level of radioactivity.

(347) Melanomas can be classified into different subtypes based on their histological features.

(348) Astrocytic gliomas can be classified into different grades based on their aggressiveness.

(349) Benthos can be classified into different functional groups based on their feeding habits.

(350) Gastronomies can be classified into different categories based on their main ingredients.

(351) Haemocytes can be classified into different types based on their morphology and function.

(352) Nebulas can be classified into different types based on their appearance and composition.

(353) Brain cells can be classified into different types based on their structure and function.

(354) Virusoids can be classified into different groups based on their genetic characteristics.

(355) Enteric bacteria can be classified into different species based on their characteristics.

(356) Entozoa can be classified into different groups based on their morphology and life cycle.

(357) Eukaryotic cells can be classified into different kingdoms, such as animalia and plantae.

(358) Adipocytes can be classified into different subtypes based on their location and function.

(359) Electrophiles can be classified into different types based on their mechanism of reaction.

(360) Angiofibroma can be classified into different subtypes based on its histological features.

(361) Supervised learning algorithms can be classified into regression and classification tasks.

(362) Capsids can be classified into different groups based on their structural characteristics.

(363) Sonants can be classified into different categories based on their manner of articulation.

(364) Economic goods can be classified into different categories based on their characteristics.

(365) Micro-organisms can be classified into different groups based on their cellular structure.

(366) Narcotics can be classified into different categories based on their chemical composition.

(367) Inhibitors can be classified into different categories based on their mechanism of action.

(368) Dyestuffs can be classified into different categories based on their chemical composition.

(369) Eucrites can be classified into different subgroups based on their mineralogy and texture.

(370) Streptococci can be classified into different groups based on their cell wall composition.

(371) Exopeptidase can be classified into different families based on their structural features.

(372) Melanomata can be classified into different subtypes based on their histological features.

(373) Amyloidoses can be classified into different types based on the specific protein involved.

(374) Multiple myeloma can be classified into different subtypes based on genetic abnormalities.

(375) Sarcomata can be classified into different subtypes based on their cell type and location.

(376) Blood cells can be classified into different types based on their appearance and function.

(377) Hemangiomas can be classified into different types based on their location and appearance.

(378) Supernovas can be classified into different types based on their light curves and spectra.

(379) Acaricides can be classified into different chemical groups based on their mode of action.

(380) Anorthosites can be classified into different types based on their mineralogy and texture.

(381) Colour-blindness can be classified into different types, such as red-green or blue-yellow.

(382) Microtia can be classified into different types based on the severity of ear malformation.

(383) Epicycloids can be classified into different types based on the number of cusps they have.

(384) B cell lymphomas can be classified into different subtypes based on their characteristics.

(385) Isomers can be classified into different categories based on their structural differences.

(386) Hydrogenases can be classified into different types based on their structure and function.

(387) Lymphoblasts can be classified into different subtypes based on their cell surface markers.

(388) Chemical substances can be classified into different categories based on their composition.

(389) Data compression algorithms can be classified into two main categories: lossless and lossy.

(390) Neurotransmitters can be classified into different types based on their chemical structure.

(391) Hypocycloids can be classified into different types based on the number of cusps they have.

(392) The celestial bodies can be classified into different types based on their characteristics.

(393) Agglutinins can be classified into different types based on their specificity and function.

(394) Adenomas can be classified into different subtypes based on their cellular characteristics.

(395) Lymphomas can be classified into two main types: Hodgkin lymphoma and non-Hodgkin lymphoma.

(396) Biophors can be classified into different categories based on their structure and function.

(397) Biochemicals can be classified into different categories based on their chemical structure.

(398) Metatheses can be classified into different types based on the specific changes that occur.

(399) Superalgebraic structures can be classified into different types based on their properties.

(400) Aliphatics can be classified into different subcategories based on their functional groups.

(401) True fungus can be classified into different groups based on their reproductive structures.

(402) Tyrosinemia can be classified into different types based on the specific enzyme deficiency.

(403) Autocoids can be classified into different groups, such as prostaglandins and leukotrienes.

(404) Eukaryotes can be classified into four main kingdoms: animals, plants, fungi, and protists.

(405) Isomerizations can be classified into different types based on the rearrangement mechanism.

(406) Planetoids can be classified into different groups based on their composition and location.

(407) Macromolecules can be classified into different groups based on their chemical composition.

(408) Leukaemia can be classified into different types based on the type of blood cells affected.

(409) Adenomas can be classified into different types based on their location and characteristics.

(410) Metamorphic rock can be classified into different types based on its texture and mineralogy.

(411) Aromatic compounds can be classified into different types based on their chemical structure.

(412) Diterpenoids can be classified into different subclasses based on their structural features.

(413) Neuroglioma can be classified into different subtypes based on its cellular characteristics.

(414) Crystalline solids can be classified into different crystal systems based on their symmetry.

(415) Stereoisomerism can be classified into two types: geometric isomerism and optical isomerism.

(416) Dysrhythmias can be classified into different types based on their specific characteristics.

(417) Biocoenologies can be classified into different types based on the dominant species present.

(418) Isoenzymes can be classified into different families based on their structural similarities.

(419) Tinctorial dyes can be classified into various categories based on their chemical structure.

(420) Epithelial tissue can be classified into different types based on its shape and arrangement.

(421) Leucocytes can be classified into different subtypes based on their appearance and function.

(422) Glycolipids can be classified into different subtypes based on their carbohydrate structure.

(423) Hemopathy can be classified into different types, such as sickle cell disease or hemophilia.

(424) Bacterias can be classified into different groups based on their shape, size, and structure.

(425) Phytohormones can be classified into different categories based on their chemical structure.

(426) Bituminizations can be classified into different types based on their composition and origin.

(427) The one-celled organism can be classified into different groups based on its characteristics.

(428) Biomolecules can be classified into different categories based on their chemical composition.

(429) Green algae can be classified into different taxonomic groups based on their characteristics.

(430) Spermatogonia can be classified into different subtypes based on their location and function.

(431) Electromagnetic waves can be classified into different categories based on their wavelengths.

(432) Secondary tissue can be classified into two main types: secondary xylem and secondary phloem.

(433) Corpuscular radiation can be classified into different types based on the particles involved.

(434) Leukosis can be classified into different subtypes based on the type of blood cells affected.

(435) Malocclusion can be classified into different categories based on the specific dental issues.

(436) Cystosarcoma can be classified into different subtypes based on its cellular characteristics.

(437) Epicycloids can be classified into different types based on the number of cusps they possess.

(438) Lymphomata can be classified into different subtypes based on their cellular characteristics.

(439) Bacterials can be classified into different groups based on their shape, size, and structure.

(440) Invertebrates can be classified into several different groups based on their characteristics.

(441) Physical assets can be classified into different categories based on their nature and purpose.

(442) Epistasis can be classified into different types based on the nature of the gene interactions.

(443) Pericyclic reactions can be classified into different types based on their reaction mechanism.

(444) Atrial septal defect can be classified into different types based on the location of the hole.

(445) Homeotic genes can be classified into different families based on their sequence similarities.

(446) Gliomas can be classified into different grades based on their aggressiveness and growth rate.

(447) Hyperplasias can be classified into different types based on the specific cell types involved.

(448) Microtia can be classified into different types based on the severity and anatomical features.

(449) Retroelements can be classified into different families based on their structure and sequence.

(450) Magmas can be classified into different types based on their chemical and physical properties.

(451) Endosomes can be classified into early, late, and recycling endosomes based on their function.

(452) Landslides can be classified into different types based on their movement and characteristics.

(453) Trochoid curves can be classified into different types based on their parameters and equations.

(454) Nucleosides can be classified into different types based on the type of base and sugar present.

(455) Glycosides can be classified into different types based on the nature of the attached compound.

(456) Ferromagnetic materials can be classified into hard and soft magnets based on their coercivity.

(457) Mudrocks can be classified into different types based on their mineral composition and texture.

(458) Glioblastomas can be classified into different subtypes based on their genetic characteristics.

(459) Conjugated proteins can be classified into different types based on their chemical composition.

(460) Inorganic compounds can be classified into several categories, such as acids, bases, and salts.

(461) Amphibole minerals can be classified into several subgroups based on their chemical composition.

(462) Topologies can be classified into different types based on their properties and characteristics.

(463) Ependymoma can be classified into different subtypes based on its appearance under a microscope.

(464) The soil horizon can be classified into different types based on its composition and properties.

(465) Aminoaciduria can be classified into different types based on the specific amino acids affected.

(466) Oxidations can be classified into different types based on the nature of the reactants involved.

(467) Thymomas can be classified into different subtypes based on their appearance under a microscope.

(468) Retrotransposons can be classified into different families based on their sequence similarities.

(469) Autosomal disorders can be classified into different types based on their specific genetic cause.

(470) Hematopathy can be classified into different subtypes based on the specific blood cells affected.

(471) Neurocutaneous disorders can be classified into different types based on their clinical features.

(472) Stereoisomerism can be classified into two main types: geometric isomerism and optical isomerism.

(473) Liposarcoma can be classified into different subtypes based on its appearance under a microscope.

(474) Neurofibromas can be classified into different types based on their location and characteristics.

(475) Inherited diseases can be classified into different categories based on their genetic mechanisms.

(476) Carcinomas can be classified into different subtypes based on their histological characteristics.

(477) Lymphosarcoma can be classified into different subtypes based on the type of lymphocyte involved.

(478) Leprosies can be classified into different types based on the severity and extent of the disease.

(479) Osteogenesis imperfecta can be classified into different types based on the severity of symptoms.

(480) Hypospadias can be classified into different types based on the location of the urethral opening.

(481) Lissencephaly can be classified into different types based on the severity of brain malformation.

(482) Cancer of the blood can be classified into different types, such as acute lymphoblastic leukemia.

(483) Enteric bacteria can be classified into different species based on their genetic characteristics.

(484) Skarns can be classified into different types based on their mineralogy and formation conditions.

(485) Hemangioendothelioma can be classified into different subtypes based on its histological features.

(486) Hyperplasia can be classified into different types based on the specific tissue or organ involved.

(487) Gram-positive bacteria can be classified into different groups based on their oxygen requirements.

(488) Autoantigens can be classified into different groups based on their cellular location or function.

(489) Anaplastic large cell lymphoma can be classified into different subtypes based on genetic markers.

(490) Psychotropic drugs can be classified into different categories based on their mechanism of action.

(491) Chemotherapeutic agents can be classified into different categories based on their mode of action.

(492) Osteosarcoma can be classified into different subtypes based on its appearance under a microscope.

(493) Hepatocellular carcinoma can be classified into different subtypes based on histological features.

(494) Adenocarcinomas can be classified into different subtypes based on their cellular characteristics.

(495) Isomerisms can be classified into different types based on the nature of the structural variation.

(496) Monochromat vision can be classified into different subtypes based on the specific cones affected.

(497) Liposarcoma can be classified into different subtypes based on the appearance of the cancer cells.

(498) Biocides can be classified into different types based on their mode of action and target organisms.

(499) Myelodysplasia can be classified into different subtypes based on the specific blood cell affected.

(500) Sarcomas can be classified into different subtypes based on the type of tissue they originate from.

(501) Monochromatism can be classified into different subtypes based on the specific cone cells affected.

(502) Nonnitrogenous compounds can be classified into different groups based on their chemical structure.

(503) Muscle cells can be classified into different types based on their contraction speed and endurance.

(504) Antileukemic agents can be classified into different categories based on their mechanism of action.

(505) Obstruent sounds can be classified into different categories based on their manner of articulation.

(506) Lamprophyre can be classified into different subtypes based on its mineral composition and texture.

(507) Glycosides can be classified into different types based on the type of sugar molecule they contain.

(508) Scleritis can be classified into different types based on the severity and location of inflammation.

(509) Myeloid cells can be classified into different subsets based on their functions and surface markers.

(510) Amphiboles can be classified into two main groups: the calcium-rich group and the sodium-rich group.

(511) Greywackes can be classified into different types based on their mineral composition and grain size.

(512) Epitheliomas can be classified into different subtypes based on their appearance under a microscope.

(513) Hemophilias can be classified into different types based on the specific clotting factor deficiency.

(514) Epicycloids can be classified into three main types: epitrochoids, hypotrochoids, and peritrochoids.

(515) Animal tissue can be classified into four main types: epithelial, connective, muscular, and nervous.

(516) Sonants can be classified into different categories based on their place and manner of articulation.

(517) Antiarrhythmic drugs can be classified into different categories based on their mechanism of action.

(518) Vesicoureteral reflux can be classified into different grades based on the severity of the condition.

(519) Bacteriophage can be classified into different families based on their morphology and genetic makeup.

(520) Benthonic organisms can be classified into different functional groups based on their feeding habits.

(521) Steganography techniques can be classified into various categories based on the type of carrier used.

(522) Myeloma can be classified into different subtypes based on the type of abnormal plasma cells present.

(523) Histiocytic disorders can be classified into different subtypes based on their histological features.

(524) CJD can be classified into different subtypes based on the clinical presentation and genetic factors.

(525) Lymphoblasts can be classified into different subtypes based on their morphology and immunophenotype.

(526) Brachydactyly can be classified into different types based on the specific finger or fingers affected.

(527) Cryoglobulinemia can be classified into different types based on the composition of the cryoglobulins.

(528) Myelodysplasia can be classified into different subtypes based on the specific abnormalities observed.

(529) Oncogenes can be classified into different categories based on their function and mechanism of action.

(530) Haemal disorders can be classified into different types based on their underlying causes and symptoms.

(531) Autocoids can be classified into different groups based on their chemical structure and mode of action.

(532) Cardiomyopathy can be classified into different types based on the specific area of the heart affected.

(533) RNA molecules can be classified into several different types, including messenger RNA and transfer RNA.

(534) Organic compounds can be classified into different functional groups based on their chemical properties.

(535) Glycolipid can be classified into different types based on the type of sugar attached to the lipid tail.

(536) Chronic lymphocytic leukemia can be classified into different stages based on the extent of the disease.

(537) Osteogenic sarcoma can be classified into different subtypes based on its appearance under a microscope.

(538) Achondritic meteorites can be classified into various groups based on their mineralogy and geochemistry.

(539) Poxviruses can be classified into different genera based on their genetic and antigenic characteristics.

(540) Bacterium can be classified into different groups based on their shape, size, and other characteristics.

(541) Inflammatory bowel disease can be classified into two main types: Crohn's disease and ulcerative colitis.

(542) Transposons can be classified into different families based on their structure and mechanism of movement.

(543) Psychopathies can be classified into different subtypes based on specific behavioral patterns and traits.

(544) Antiozonants can be classified into different types based on their chemical structure and mode of action.

(545) Kaposi's sarcoma can be classified into four different types: classic, endemic, iatrogenic, and epidemic.

(546) Journal bearings can be classified into different types, including hydrodynamic and hydrostatic bearings.

(547) Bacterials can be classified into different groups based on their shape, size, and other characteristics.

(548) Hemophilia can be classified into different types based on the specific clotting factor that is deficient.

(549) Intraductal carcinoma can be classified into different subtypes based on its histological characteristics.

(550) Sarcoma can be classified into different subtypes based on the specific type of tissue it originates from.

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