Difference between revisions of "User:白学家羊驼/slāi-baau-hī"
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Revision as of 04:55, 6 August 2020
Slāi-baau-hī zí gō hài cói ngàai slāi-baau-zat baau-wài gō jáu gōk-zúng-gōk-jòeng hìng-tāai lau gung-nàng gō gāu-zàu.
gī hài slāi-baau gō ah bù-fàn, zùng hài slāi-baau lí-tàu jí saang-màt-mōk lau slāi-baau kì-taa bù-fàn gāak-hoi lòi, gung-nàng dùk-làp gō āa slāi-baau gīt-gāu, gī lau slāi-baau-zat gi-zat, slāi-baau gwat-gāa ah-cài ngàai hāam-zū slāi-baau-zat.
Slāi-baau-hī gō zúng-lùi
Slāi-baau-hī hó-jī gan-gì gī jáu gí-do càng mōk dàai-kōi fan sèng 3 zúng:
- Song càng mōk nùi-gùng-saang-tái slāi-baau-hī zí-jīu baau-kwāat jìp-lùk-tái lau slīn-nap-tái dáng.
- Daan càng mōk slāi-baau-hī zí-jīu baau-kwāat nùi-zat-móng, Golgi-tái, jìk-pāau, jùng-mùi-tái lau gwō-jóeng-fāa-màt-mùi-tái dáng.
Slāi-baau-hī | Zí-jiū gung-nàng | Gīt-gāu | Saang-màt-tái | Bì-zī |
---|---|---|---|---|
Slāi-baau-bēk | separates the interior of all cells from the outside environment (the extracellular space) which protects the cell from its environment. | two-dimensional liquid | all eukaryotes | |
Slāi-baau-mōk | The cell wall is composed of peptidoglycan and is rigid, provides shape to the cell, helps to keeps the organelles inside the cell, and does not let the cell burst due to changes in osmotic pressure. | cellulose | plants, protists, rare kleptoplastic organisms | |
chloroplast (plastid) | photosynthesis, traps energy from sunlight | double-membrane compartment | plants, protists, rare kleptoplastic organisms | has own DNA; theorized to be engulfed by the ancestral eukaryotic cell (endosymbiosis) |
endoplasmic reticulum | translation and folding of new proteins (rough endoplasmic reticulum), expression of lipids (smooth endoplasmic reticulum) | single-membrane compartment | all eukaryotes | rough endoplasmic reticulum is covered with ribosomes, has folds that are flat sacs; smooth endoplasmic reticulum has folds that are tubular |
flagellum | locomotion, sensory | protein | some eukaryotes | |
Golgi apparatus | sorting, packaging, processing and modification of proteins | single-membrane compartment | all eukaryotes | cis-face (convex) nearest to rough endoplasmic reticulum; trans-face (concave) farthest from rough endoplasmic reticulum |
mitochondrion | energy production from the oxidation of glucose substances and the release of adenosine triphosphate | double-membrane compartment | most eukaryotes | constituting element of the chondriome; has own DNA; theorized to have been engulfed by an ancestral eukaryotic cell (endosymbiosis)[1] |
nucleus | DNA maintenance, controls all activities of the cell, RNA transcription | double-membrane compartment | all eukaryotes | contains bulk of genome |
vacuole | storage, transportation, helps maintain homeostasis | single-membrane compartment | eukaryotes |
Mitochondria and plastids, including chloroplasts, have double membranes and their own DNA. According to the endosymbiotic theory, they are believed to have originated from incompletely consumed or invading prokaryotic organisms.
Organelle/Macromolecule | Main function | Structure | Organisms |
---|---|---|---|
acrosome | helps spermatozoa fuse with ovum | single-membrane compartment | most animals |
autophagosome | vesicle that sequesters cytoplasmic material and organelles for degradation | double-membrane compartment | all eukaryotes |
centriole | anchor for cytoskeleton, organizes cell division by forming spindle fibers | Microtubule protein | animals |
cilium | movement in or of external medium; "critical developmental signaling pathway".[2] | Microtubule protein | animals, protists, few plants |
cnidocyst | stinging | coiled hollow tubule | cnidarians |
eyespot apparatus | detects light, allowing phototaxis to take place | green algae and other unicellular photosynthetic organisms such as euglenids | |
glycosome | carries out glycolysis | single-membrane compartment | Some protozoa, such as Trypanosomes. |
glyoxysome | conversion of fat into sugars | single-membrane compartment | plants |
hydrogenosome | energy & hydrogen production | double-membrane compartment | a few unicellular eukaryotes |
lysosome | breakdown of large molecules (e.g., proteins + polysaccharides) | single-membrane compartment | animals |
melanosome | pigment storage | single-membrane compartment | animals |
mitosome | probably plays a role in Iron-sulfur cluster (Fe-S) assembly | double-membrane compartment | a few unicellular eukaryotes that lack mitochondria |
myofibril | myocyte contraction | bundled filaments | animals |
nucleolus | pre-ribosome production | protein-DNA-RNA | most eukaryotes |
ocelloid | detects light and possibly shapes, allowing phototaxis to take place | double-membrane compartment | members of the family Warnowiaceae |
parenthesome | not characterized | not characterized | fungi |
peroxisome | breakdown of metabolic hydrogen peroxide | single-membrane compartment | all eukaryotes |
proteasome | degradation of unneeded or damaged proteins by proteolysis | very large protein complex | all eukaryotes, all archaea, and some bacteria |
ribosome (80S) | translation of RNA into proteins | RNA-protein | all eukaryotes |
stress granule | mRNA storage[3] | membraneless
(mRNP complexes) |
most eukaryotes |
TIGER domain | mRNA encoding proteins | membraneless | most organisms |
vesicle | material transport | single-membrane compartment | all eukaryotes |
- ↑ Alberts B, Johnson A, Lewis J, Morgan D, Raff MC, Roberts K, Walter P, Wilson JH, Hunt T. -{zh;zh-hans;zh-hant|Molecular biology of the cell}- Sixth. Garland Science. 2014-11-18: 679. ISBN 978-0815345244.
- ↑ Template:Cite journal
- ↑ Template:Cite journal