Answer:
The breakdown of carbohydrates in the cell during cellular respiration does not change the matter or energy in the molecule.
Explanation:
Answer:
They both can eat the same thing.
Explanation:
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Answer:
The type of intermolecular interactions of a set of molecules determines how they are grouped together. In the case of biological molecules, these types of non-covalent weak interactions have a great importance in the development of the vital phenomenon, since they allow the interaction of the different biomolecules with each other.
Explanation:
Non-covalent weak interactions are characterized by being long-range, that is, they act at a distance greater than 28 and by their weak binding energy (their binding energy is typically 10 to 100 times lower) so they can be created and break easily. These interactions are responsible for the final structure of macromolecules, for the specific binding between molecules, that is, for molecular recognition, for the self-organization processes of macromolecular and cellular structures, and for everything that involves movement and communication at the cellular and subcellular level. Its importance, therefore, is fundamental for all structural and functional aspects of living beings.
→ Answer: RNA polymerase binds to the amylase gene promoter
→RNA elongation proceeds until RNA polymerase falls off the DNA
→A poly A tail is added to the 3' of pre-mRNA
→A mature mRNA is exported out of the nucleus
→ The tRNA charged with Met amino acid recognizes the AUG on the amylase mRNA bound to small ribosomal subunit
→Ribosome is fully assembled and translation elongation proceeds
→A release factor binds a stop codon on the amylase mRNA
→The growing polypeptide chain continues to insert itself inside the lumen of the ER
→Vesicles containing amylase leave the Golgi and fuse with plasma membrane to secrete protein from the cell