Flagella in a sentence

(1) The protist moves using its flagella.

(2) Antherozoids have flagella for movement.

(3) Some protozoa have flagella for movement.

(4) Prokaryotic cells have flagella for movement.

(5) The protoplasmic flagella enable cell movement.

(6) The endotherm protist moved using its flagella.

(7) The flagellate's flagella were long and slender.

(8) Each cell in the volvox colony has two flagella.

(9) Bacterial flagella enable movement and motility.

(10) Procaryotic cells can have flagella for movement.

Flagella sentence

(11) The one-celled organism moves using its flagella.

(12) Eukaryotic cells can move using cilia or flagella.

(13) Flagellin is a protein found in bacterial flagella.

(14) Eubacterial species can have flagella for motility.

(15) Some protista have flagella or cilia for locomotion.

(16) The zoospore swims through water using its flagella.

(17) The flagella in a cell help it move through liquids.

(18) The motility of the flagella helps bacteria to move.

(19) The flagellate's flagella beat in a rhythmic pattern.

(20) The flagellate's flagella were covered in tiny hairs.

Flagella make sentence

(21) The motility of a volvox is dependent on its flagella.

(22) The flagellate's flagella beat in a coordinated manner.

(23) The epimere of the protozoan had flagella for movement.

(24) The motility of a euglena is dependent on its flagella.

(25) The movement of antherozoids is facilitated by flagella.

(26) The motility of the flagella helps bacteria move around.

(27) The motility of a bacteria is dependent on its flagella.

(28) Protozoan can move using cilia, flagella, or pseudopods.

(29) The antherozoid swims towards the egg using its flagella.

(30) Dynein is involved in the movement of cilia and flagella.

Sentence of flagella

(31) The endosarc supports the movement of cilia and flagella.

(32) The flagellate's flagella were essential for its survival.

(33) Eukaryotes have flagella or cilia that help with movement.

(34) The flagella are cell organelles involved in cell movement.

(35) Peritrichous bacteria have flagella all over their surface.

(36) Peritrichous flagella are common in many types of bacteria.

(37) The cilia and flagella are used for movement in some cells.

(38) The axoneme is a structural component of cilia and flagella.

(39) Antherozoids are propelled by the beating of their flagella.

(40) The ultrastructure of the flagella allows for cell motility.

Flagella meaningful sentence

(41) Myosin is responsible for the movement of cilia and flagella.

(42) The volvox colony moves through the water using its flagella.

(43) The cytoskeletons support the movement of cilia and flagella.

(44) Antherozoids are propelled by the movement of their flagella.

(45) Some animalcules have flagella, which helps them move around.

(46) The motility of the flagella in bacteria allows for movement.

(47) The flagellate's flagella allowed it to move in any direction.

(48) The flagellate's flagella allowed it to escape from predators.

(49) Bacterial flagella are composed of a protein called flagellin.

(50) Flagellin is a protein that makes up the flagella of bacteria.

Flagella sentence examples

(51) Pseudomonas bacteria can produce flagella that help them move.

(52) Eukaryotic cells have a unique flagella or cilia for movement.

(53) Centrioles are involved in the formation of cilia and flagella.

(54) Myosins are responsible for the movement of cilia and flagella.

(55) The axoneme provides support and rigidity to cilia and flagella.

(56) Microtubules are involved in the movement of cilia and flagella.

(57) ATP is required for the movement of flagella and cilia in cells.

(58) The flagella and cilia are organelles involved in cell movement.

(59) The axonemes of cilia and flagella are composed of microtubules.

(60) The flagella, used for movement, are present in some eukaryotes.

Sentence with flagella

(61) The antherozoids are propelled by the beating of their flagella.

(62) Eukaryotic cells have a basal body to anchor cilia and flagella.

(63) The flagella on the sperm cell enable it to swim towards the egg.

(64) The dinoflagellate cell has a unique structure with two flagella.

(65) Microtubules are involved in the formation of cilia and flagella.

(66) The movement of dinoflagellates is facilitated by their flagella.

(67) The basal-body is involved in the movement of cilia and flagella.

(68) The axoneme is responsible for the movement of cilia and flagella.

(69) The flagella of a dinoflagellate help it to move and capture prey.

(70) Some bacteria can move around by using tiny hairs called flagella.

Use flagella in a sentence

(71) The centrosome is involved in the formation of cilia and flagella.

(72) The flagella of choanocytes beat rhythmically to create water flow.

(73) The flagella of pseudomonad enable it to move in a swimming motion.

(74) The flagellate's flagella were sensitive to changes in temperature.

(75) Some types of algae have flagella that allow them to move in water.

(76) Axonemes play a crucial role in the movement of cilia and flagella.

(77) The word axonemal refers to structures found in cilia and flagella.

(78) Flagellates can move by propelling themselves using their flagella.

(79) Mesozoans have a unique mode of locomotion using cilia or flagella.

(80) Centrioles are responsible for the formation of cilia and flagella.

Sentence using flagella

(81) Peritrichous organisms can attach to surfaces using their flagella.

(82) The volvox colony moves by the coordinated beating of its flagella.

(83) The immotile flagella on the bacteria prevented them from swimming.

(84) The vibratile motion of the flagella propels sperm towards the egg.

(85) Eukaryotic cells have a basal body that anchors cilia and flagella.

(86) The zoospore is capable of independent movement due to its flagella.

(87) The flagella of bacteria help them move through liquid environments.

(88) The antherozoid's movement is driven by the beating of its flagella.

(89) The movement of sperm by means of flagella helps them reach the egg.

(90) Microfilament is responsible for the movement of cilia and flagella.

Flagella example sentence

(91) The mastigophoran's flagella are used for both movement and feeding.

(92) The polymastigote is a type of protozoan that has multiple flagella.

(93) The cytoskeleton is involved in the formation of cilia and flagella.

(94) Dinoflagellates have two flagella that help them move through water.

(95) Dynein is essential for the proper functioning of cilia and flagella.

(96) The peritrichous flagella provide bacteria with a means of dispersal.

(97) Zoospores are capable of swimming through water using their flagella.

(98) The peritrichous flagella of E. coli help it to swim through liquids.

(99) The axonemes of cilia and flagella are anchored to the cell membrane.

(100) The flagella of choanocytes are covered in tiny hair-like projections.

Sentence with word flagella

(101) The centrosome is a key player in the formation of cilia and flagella.

(102) The flagella of a protozoan are often used for locomotion and feeding.

(103) Tubulin is essential for the proper functioning of cilia and flagella.

(104) The vibrion's flagella allowed it to move through liquid environments.

(105) The spirillum's flagella enable it to move in a corkscrew-like motion.

(106) Antherozoids, unlike other plant cells, possess flagella for movement.

(107) The centrospheres are involved in the formation of cilia and flagella.

(108) The spirillum's flagella allow it to move through liquid environments.

(109) The mastigophoran's flagella allow it to move through water with ease.

(110) Flagellates are single-celled organisms that use flagella for movement.

Sentence of flagella

(111) The flagella of a trypanosome allow it to move through the bloodstream.

(112) The spirillum's flagella allow it to move towards favorable conditions.

(113) Peritrichous bacteria have flagella distributed all over their surface.

(114) The cytoskeleton is responsible for the movement of cilia and flagella.

(115) The flagella of a paramecium help it to move and capture food particles.

(116) The animalcule's flagella enable it to move through the water with ease.

(117) The peritrichous flagella enable bacteria to move towards light sources.

(118) The word biflagellate refers to an organism that possesses two flagella.

(119) The periplasmic flagella enable bacteria to move in liquid environments.

(120) The peritrichous flagella of bacteria help them to swim through liquids.

Flagella used in a sentence

(121) The energy from ATP is used to power the movement of cilia and flagella.

(122) The flagella of a bacterium rotate like a propeller to generate movement.

(123) Spirochetes have a unique flagella structure that enables their motility.

(124) Axonemes are essential structures in the formation of cilia and flagella.

(125) The axoneme is a microtubule-based structure found in cilia and flagella.

(126) The flagellate's flagella propelled it through the water with great speed.

(127) Centrioles are essential for the proper functioning of cilia and flagella.

(128) Some bacteria can move by using tiny hair-like structures called flagella.

(129) The motility of the flagella in bacteria allows for movement and survival.

(130) The mastigophoran's flagella are also used for capturing prey and feeding.

Flagella sentence in English

(131) Choanocytes have a unique collar-like structure surrounding their flagella.

(132) The flagella of a green algae cell enable it to move towards light sources.

(133) The antherozoid's flagella enable it to swim through water towards the egg.

(134) The bacterioid's flagella enable it to move towards favorable environments.

(135) The motility of the flagella in bacteria helps them move towards nutrients.

(136) The axonemal structure is essential for the movement of cilia and flagella.

(137) The motile flagella on the bacteria allowed them to move towards nutrients.

(138) The microtubular system is involved in the formation of cilia and flagella.

(139) Epithelial cells can have cilia or flagella for movement in certain tissues.

(140) The spirillum's flagella enable it to propel itself through its environment.

(141) The peritrichous flagella enable bacteria to move towards sources of carbon.

(142) The centriole is essential for the proper functioning of cilia and flagella.

(143) The protoplasm of a protozoan cell enables movement using cilia or flagella.

(144) The antherozoids possess flagella that help them move towards the egg cells.

(145) The axoneme is responsible for the coordinated beating of cilia and flagella.

(146) The flagellate's flagella helped it navigate through the maze-like structure.

(147) The flagella of a whipworm help it to attach to the lining of the intestines.

(148) The antherozoid's flagella propel it towards the egg with a whip-like motion.

(149) The antherozoid's flagella beat in a coordinated manner to propel it forward.

(150) The poriferan's body is covered in tiny hair-like structures called flagella.

(151) The basal-body is essential for the proper functioning of cilia and flagella.

(152) The peritrichous arrangement of flagella is common in many types of bacteria.

(153) The antennary flagella in crustaceans are used for sensing their environment.

(154) The peritrichous arrangement of flagella is important for bacterial motility.

(155) The energy stored in ATP is used to power the movement of cilia and flagella.

(156) The motile flagella of certain bacteria enable them to move towards nutrients.

(157) The movement of flagella in a coordinated manner propels the organism forward.

(158) The flagella of a bacteria can be either polar or peritrichous in arrangement.

(159) Axonemal microtubules provide the structural framework for cilia and flagella.

(160) Motiles use various mechanisms such as flagella or cilia to propel themselves.

(161) The microtubular system is responsible for the movement of cilia and flagella.

(162) The nonmotile flagella on the cell surface were damaged during the experiment.

(163) The axonemal microtubules are arranged in a 9+2 pattern in cilia and flagella.

(164) The flagella of a sperm cell are essential for its ability to fertilize an egg.

(165) The peritrichous flagella enable bacteria to swim towards favorable conditions.

(166) The movement of zoogametes is facilitated by the presence of flagella or cilia.

(167) The structure of axonemes allows for coordinated movement of cilia and flagella.

(168) The axonemal structure is crucial for the proper movement of cilia and flagella.

(169) The antennary flagella of some marine animals are used for swimming and feeding.

(170) The centrosome is involved in the formation of cilia and flagella in some cells.

(171) The ultrastructure of the flagella allows for cell movement in certain organisms.

(172) The centrosome is involved in the assembly and disassembly of cilia and flagella.

(173) Enterobacteriaceae are gram-negative bacteria that possess flagella for motility.

(174) The biflagellate flagella were long and slender, allowing for efficient movement.

(175) The axonemes of cilia and flagella are highly conserved across different species.

(176) The flagella of a bacteria can be sheathed or unsheathed depending on the species.

(177) The antherozoids are propelled through the water by the beating of their flagella.

(178) Centrospheres are involved in the assembly and organization of cilia and flagella.

(179) The peritrichous arrangement of flagella allows bacteria to move in any direction.

(180) Prokaryotes have a wide range of motility mechanisms, including flagella and pili.

(181) The cytoskeletons are responsible for the movement of cilia and flagella in cells.

(182) Kymographs provide a valuable tool for studying the behavior of cilia or flagella.

(183) The antherozoids are motile, for they possess flagella that aid in their movement.

(184) A dark-field microscope can be used to observe the movement of cilia and flagella.

(185) The hydrolysis of adenosine triphosphate powers the movement of flagella and cilia.

(186) The beating of choanocyte flagella creates a flow that brings oxygen to the sponge.

(187) The flagella of a volvox colony work together to propel the organism through water.

(188) The flagella of a bacteria can be used for identification purposes in a laboratory.

(189) The movement of Chlamydomonas is driven by the coordinated beating of its flagella.

(190) The function of ATPase is to provide energy for the movement of cilia and flagella.

(191) The ultrastructural analysis of the bacterial cell showed the presence of flagella.

(192) The beating of choanocyte flagella creates a water current that brings in nutrients.

(193) Archaeal flagella are structurally different from bacterial and eukaryotic flagella.

(194) Adenosine triphosphate is used to power the movement of flagella and cilia in cells.

(195) The centrosomic complex plays a crucial role in the formation of cilia and flagella.

(196) The mastigophoran is a type of unicellular organism that uses flagella for movement.

(197) Eubacterial flagella are used for motility and can be found in various arrangements.

(198) The ciliation on the organism's flagella allows for rapid movement in a fluid medium.

(199) The flagella of biflagellate organisms are typically long and whip-like in structure.

(200) Choanocytes use their flagella to create water currents that bring in food particles.

(201) The axoneme is essential for the function of cilia and flagella in sensory perception.

(202) The axonemal structure is responsible for the rhythmic movement of cilia and flagella.

(203) The flagella of Chlamydomonas are anchored to the cell membrane and provide propulsion.

(204) The axonemes of cilia and flagella are involved in sensory functions in some organisms.

(205) The peritrichous flagella of bacteria are essential for their survival and reproduction.

(206) Biflagellate organisms use their flagella to propel themselves through their environment.

(207) The flagella of Chlamydomonas enable it to move and navigate through its aquatic habitat.

(208) Spermatozoids are propelled by their flagella, which allows them to swim towards the egg.

(209) The flagella of a bacteria can rotate in either a clockwise or counterclockwise direction.

(210) The movement of dinoflagellates is facilitated by two whip-like structures called flagella.

(211) The mastigophoran's flagella are made up of microtubules and are capable of rapid movement.

(212) The peritrichous flagella of Helicobacter pylori help it to burrow into the stomach lining.

(213) The axonemes of cilia and flagella are capable of bending and flexing to generate movement.

(214) Many protists are capable of locomotion using specialized structures like flagella or cilia.

(215) The peritrichous arrangement of flagella enhances the ability of bacteria to find nutrients.

(216) The flagella and cilia are cell organelles involved in cell movement and sensory perception.

(217) Flagellates are unicellular organisms that use whip-like structures called flagella to move.

(218) The flagella of a eukaryotic cell are usually longer and more complex than those of bacteria.

(219) The cell membrane is involved in the formation of cellular extensions like cilia and flagella.

(220) Antherozoids are motile, for they possess flagella that aid in their movement towards the egg.

(221) Antherozoids, which are propelled by their flagella, move towards the egg in a zigzag pattern.

(222) The organization of microfilaments is crucial for the proper functioning of cilia and flagella.

(223) The presence of flagella is one of the characteristics used to classify certain microorganisms.

(224) Flagellates are a diverse group of organisms that possess whip-like structures called flagella.

(225) Choanoflagellates are known for their unique collar-like structures surrounding their flagella.

(226) The peritrichous arrangement of flagella is a characteristic feature of many bacterial species.

(227) Cytoskeletons are involved in the formation of cellular extensions, such as cilia and flagella.

(228) The flagella of a bacteria are usually thinner and more flexible than those of eukaryotic cells.

(229) The flagella of a bacteria can be used for sensing and responding to changes in the environment.

(230) The movement of zoospores is driven by the beating of tiny hair-like structures called flagella.

(231) Archaebacterial flagella have a different structure and function compared to bacterial flagella.

(232) The peritrichous flagella of Vibrio cholerae help it to move through the human digestive system.

(233) The peritrichous flagella of Pseudomonas aeruginosa allow it to move through mucus in the lungs.

(234) The antheridia of certain plants are capable of producing sperm cells with flagella for swimming.

(235) Protista have unique organelles, such as cilia and flagella, that allow them to move and capture food.

(236) The flagellate's flagella, or whip-like appendages, allow it to move through its environment with ease.

(237) The axonemes of cilia and flagella are composed of nine microtubule doublets surrounding a central pair.

(238) Antherozoids are released from the antheridia, and they swim towards the archegonia using their flagella.

(239) Cytoskeletons are essential for the proper functioning of cilia and flagella, which enable cell motility.

(240) The axoneme is a complex structure, but it is essential for the proper functioning of cilia and flagella.

(241) The peritrichous arrangement of flagella provides bacteria with a means of escaping unfavorable conditions.

(242) The axonemal nexin-dynein regulatory complex is essential for the proper functioning of cilia and flagella.

(243) Although the axoneme is a complex structure, it plays a crucial role in the movement of cilia and flagella.

(244) The centrosomes are involved in the formation of cilia and flagella, which are important for cell motility.

(245) The axoneme, which is composed of microtubules, is responsible for the beating motion of cilia and flagella.

(246) The mastigophoran's flagella are used to create water currents that bring food particles towards the organism.

(247) Some bacteria have multiple flagella, which can allow them to move more efficiently through their environment.

(248) ATP is used to power the movement of cilia and flagella, but it is also involved in the process of exocytosis.

(249) The centrosphere is a key player in the formation of cilia and flagella, which are essential for cell motility.

(250) Antherozoids are motile, for they possess flagella that aid in their movement towards the egg for fertilization.

(251) Ankyrin is crucial for the stability and function of the axoneme in cilia and flagella, enabling their motility.

(252) The microtubules are involved in cell division and movement, and the cilia and flagella are used for locomotion.

(253) Dinoflagellates have a unique cell structure that includes two flagella, which they use for movement and feeding.

(254) The mastigophoran's flagella are also used for sensory purposes, allowing the organism to detect changes in its environment.

(255) The axoneme is responsible for the beating motion of cilia and flagella, which allows cells to move and transport materials.

(256) When the axoneme is damaged, the movement of cilia and flagella can be impaired, leading to respiratory and fertility issues.

(257) The axonemes of cilia and flagella are important for the proper functioning of respiratory and reproductive systems in humans.

(258) The cytoskeleton is essential for the proper functioning of cilia and flagella, and it also helps with intracellular transport.

(259) The centrosome, which is an organelle involved in cell division and the formation of cilia and flagella, is found in animal cells.

(260) Kymographs have allowed scientists to study the intricate movements of cilia and flagella, which play crucial roles in cellular processes.

(261) While centrosomes are typically located near the nucleus, they can also be found in other areas of the cell such as the axoneme of cilia and flagella.

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