Examples of pentaradial symmetry in the following topics:
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- Echinoderms are invertebrates that have pentaradial symmetry, a spiny skin, a water vascular system, and a simple nervous system.
- Adult echinoderms exhibit pentaradial symmetry and have a calcareous endoskeleton made of ossicles, although the early larval stages of all echinoderms have bilateral symmetry .
- The ring canal connects the radial canals (there are five in a pentaradial animal), and the radial canals move water into the ampullae, which have tube feet through which the water moves.
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- Of all echinoderms, the Ophiuroidea may have the strongest tendency toward 5-segment radial (pentaradial) symmetry.
- Their early larvae have bilateral symmetry, but they develop fivefold symmetry as they mature.
- Several sea urchins, however, including the sand dollars, are oval in shape, with distinct front and rear ends, giving them a degree of bilateral symmetry.
- Although the basic echinoderm pattern of fivefold symmetry can be recognized, most crinoids have many more than five arms.
- Sea cucumbers are the only echinoderms that demonstrate "functional" bilateral symmetry as adults, as they lie horizontally as opposed to the vertical axis of other echinoderms.
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- Animals that possess bilateral symmetry can be divided into two groups, protostomes and deuterostomes, based on their patterns of embryonic development.
- Echinoderms are invertebrate marine animals that have pentaradial symmetry and a spiny body covering; the phylum includes sea stars, sea urchins, and sea cucumbers.
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- Animals can be classified by three types of body plan symmetry: radial symmetry, bilateral symmetry, and asymmetry.
- In contrast to radial symmetry, which is best suited for stationary or limited-motion lifestyles, bilateral symmetry allows for streamlined and directional motion.
- Animals in the phylum Echinodermata (such as sea stars, sand dollars, and sea urchins) display radial symmetry as adults, but their larval stages exhibit bilateral symmetry .
- This is termed secondary radial symmetry.
- The larvae of echinoderms (sea stars, sand dollars, and sea urchins) have bilateral symmetry as larvae, but develop radial symmetry as full adults.
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- Animal body plans follow set patterns related to symmetry.
- Asymmetrical animals are those with no pattern or symmetry, such as a sponge.
- Bilateral symmetry is illustrated in a goat.
- Animals exhibit different types of body symmetry.
- The sponge is asymmetrical, the sea anemone has radial symmetry, and the goat has bilateral symmetry.
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- Mutations in these genes leads to the loss of symmetry required for organism development.
- Animal bodies have three axes for symmetry: anterior/posterior (front/behind), dorsal/ventral (back/belly), and lateral/medial (side/middle).
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- Animal bodies have three axes for symmetry (lateral-medial, dorsal-ventral and anterior-posterior) which are established in development.
- Mutations in these genes leads to the loss of symmetry required for organism development.
- Animal bodies have externally visible symmetry.
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- Sponges lack true tissues, have no body symmetry, and are sessile; types are classified based on presence and composition of spicules.
- Therefore, sponges lack true tissues and organs; in addition, they have no body symmetry.
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- Species in this group have bilateral symmetry.
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- A second subtype of Rhizaria, the radiolarians, exhibit intricate exteriors of glassy silica with radial or bilateral symmetry .