Silicates<span> are </span>minerals<span> that </span>contain silicon<span> atoms bonded to </span>oxygen<span> atoms. The basic building block for all </span>silicate minerals<span> is called a tetrahedron, where one</span>silicon<span> atom is bonded to 4 </span>oxygen<span> atoms. </span>Silicate minerals<span> also often </span>contain<span> other </span>elements<span>, such as calcium, iron, and magnesium.</span>
A Competition i think hope it helps
Mitochondria contains it's own DNA. It's structure is a bit different from that of the chromosomes found in the eukaryotic nucleus. From my understanding, it supports the endosymbiotic theory because it contains characteristics similar to single-celled prokaryotic cells despite it being classified as an eukaryotic cell.
<span>Another function of the mitochondria that supports the endosymbiotic theory is that the mitochondria are responsible for their own reproduction. Eukaryotic cells are duplicated by its nucleus, however, despite it being classified as an eukaryotic cell, the mitochondria does all the work on it's own. Again, it supports the endosymbiotic theory because it contains characteristics similar to single-celled prokaryotic cells despite it being classified as an eukaryotic cell.
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Answer:
The correct option is C) cytosolic, endoplasmic reticulum
<em>New membrane phospholipids are synthesized by enzymes bound to the cytosolic side of the endoplasmic reticulum membrane. </em>
Explanation:
Synthesis of proteins that are destined to membrane or exportation starts in the cytoplasm with the production of a molecule portion known as a signal aminoacidic sequence. This signal sequence is located in the amino extreme of the synthesizing protein, and when it reaches a certain length, it meets the signal recognizing particle. This particle joins the signal sequence of the protein and leads the synthesizing protein and associated ribosome to a specific region in the Rough endoplasmic reticulum where it continues the protein building. When they reach the membrane of the endoplasmic reticulum, the signal recognizing particle links to a receptor associated with a pore. Meanwhile, the ribosome keeps synthesizing the protein, and the enlarged polypeptide chain goes forward the reticulum lumen through the pore. While this is happening, another enzyme cuts the signal sequence, an action that requires energy from the ATP hydrolysis. When the new protein synthesis is complete, the polypeptide is released into the reticulum lumen. Here it also happens the protein folding (which is possible by the formation of disulfide bridges of proteins are formed) and the initial stages of glycosylation (the oligosaccharide addition). The newly synthesized proteins get packaged into vesicles that take them to the Golgi apparatus.
In the Golgi complex, proteins suffer their final association with carbohydrates and lipids to originate glycoproteins and glycolipids. Once these processes are done, the glycoproteins and glycolipids are packaged again into new vesicles that drive them to their final destiny.
Solar radiation, because it hasn't (at least noticeably) affected hawks.
