In this patient, the proteins that usually take the process of post-translational to incorporate their organelle, take now the process of <span>cotranslational, and vice-versa.
In this patient, for cotranslational, we would have proteins for organelles such as </span>mitochondria<span>, nucleus, vacuole, </span><span>and </span><span>peroxisomes.
For post-translational, </span>we would have proteins for organelles such as endoplasmic reticulum<span>, </span>golgi, plasma membrane, and lysomes.
The answer is water. This occurs through the following reaction. During this oxidative reaction of
NADH by O2, the energy expended is used
to synthesize ATP from ADP and Pi. Because NADH generated in the cytosol cannot
enter the mitochondrion, electrons and protons from NADH are transferred in by an electron shuttle system.
Answer:
DNA strand = complementary strand
GCAAG = CGTTC
TTACG = AATGC
GATAC = CTATG
CGGAT = GCCTA
DNA strand = mRNA strand
CGATT = GCUAA
GCTTA = CGAAU
GCATC = CGUAG
TTCAT = AAGUA
Explanation: A complementary strand is not the same in base composition and sequence with the template strand. In DNA, anywhere adenine is found in the template strand, thymine is found in the complementary strand and anywhere cytosine is found in the template strand, guanine is found in the complementary strand. But in RNA, anywhere adenine occurs in the DNA template strand, uracil occurs in the mRNA strand, wherever thymine occurs in the DNA template strand, adenine occurs in the mRNA strand and wherever guanine occurs in the DNA template strand, cytosine occurs in the mRNA strand.
Summarily, in DNA adenine pairs with thymine while cytosine pairs with guanine while in mRNA, adenine pairs with uracil, while cytosine pairs with guanine.
Answer:
leaves
Explanation: you just got coconut malled send this to a friend to totally coconut mall them
.........................................................ATP
