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Page 115
... microfilaments , and 3 intermediate filaments ( Table 6.1 ) . Figure 6.20 The cytoskeleton . In this TEM , prepared by a method known as deep- etching , the thicker , hollow microtubules and the thinner , solid microfilaments are ...
... microfilaments , and 3 intermediate filaments ( Table 6.1 ) . Figure 6.20 The cytoskeleton . In this TEM , prepared by a method known as deep- etching , the thicker , hollow microtubules and the thinner , solid microfilaments are ...
Page 116
... shape . This is especially important for animal cells , which lack walls . The remarkable strength and resilience of the cytoskeleton as a whole is based on its architecture 116 microfilaments are visible. A third ...
... shape . This is especially important for animal cells , which lack walls . The remarkable strength and resilience of the cytoskeleton as a whole is based on its architecture 116 microfilaments are visible. A third ...
Page 122
... molecule is a dimer consisting of two slightly different polypeptide subunits , a - tubulin and ẞ - tubulin . A microtubule grows in length by adding tubulin dimers to its 122 the three types; microfilaments (also ...
... molecule is a dimer consisting of two slightly different polypeptide subunits , a - tubulin and ẞ - tubulin . A microtubule grows in length by adding tubulin dimers to its 122 the three types; microfilaments (also ...
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animal cells autophagy barbiturates Bottom This diagram bound ribosomes calcium ions carbohydrate cell motility cell's compartmental cellular respiration central vacuole chemical energy cis face cisternal maturation model Concept Check cristae cytoplasm cytoskeleton cytosol digest electron micrograph enclosed endomembrane system endoplasmic reticulum eukaryotic cells example Figure food vacuole free ribosomes glycoproteins Golgi apparatus Golgi products Golgi stack hormones hydrolytic enzymes inner membrane intermediate filaments large number large plant cell liver cell lumen lysosome fusing macromolecules Macrophages membrane proteins membranes separated metabolic functions microfilaments microtubules mitochondria and chloroplasts modified molecular composition monomers motor proteins muscle cell narrow intermembrane space nuclear envelope nucleoli organelles outer membrane peroxisome phagocytosis photosynthesis pigments plasma membrane polypeptide polysaccharides protein synthesis protists recycle rough rough ER sacs called cisternae secretory proteins smooth ER stroma structure and function sugar suggested answers thylakoids tonoplast trans face trans region transport vesicles Transport vesicles bud tubules tubulin vesicles containing vesicles that bud