no
Yes. They can serve both as a neurotransmitter and as a hormone.
Across the inner membrane. As H+ ions are pumped through ATP synthase, ADP + Pi --> ATP
4
Yes,they produce ATP.Aerobic respiration produces ATP.
Membrane proteins are important to carry out the process of selective transport across cells. Na/K channel proteins, ABC transsporters, ATP synthase, ETC chain proteins are some good examples. They mostly cost energy to transport a molecule (active transport) and other protein actually synthesize ATP (ATP synthase)
Neurotransmitters. There are several hundred different neurotransmitters used by different types of nerves in different parts of the body, a few are:acetylcholinedopamineserotoninglutamateaspartateD-serineγ-aminobutyric acid (GABA)glycinenitric oxide (NO)carbon monoxide (CO)hydrogen sulfide (H2S)norepinephrineepinephrine (adrenaline)histaminephenethylamineN-methylphenethylaminetyramine3-iodothyronamineoctopaminetryptaminesomatostatinsubstance Pcocaine and amphetamine regulated transcript, opioid peptides[9]adenosine triphosphate (ATP)adenosineanandamideβ-endorphinvasopressindynorphinoxytocinetc.
Yes. They can serve both as a neurotransmitter and as a hormone.
Across the inner membrane. As H+ ions are pumped through ATP synthase, ADP + Pi --> ATP
to produce ATP
4
If you mean this in a biological context, then ATP stands for adenosine triphosphate. ATP is a usable form of energy for cells. It does not carry any code.
through micro waves lol
Yes,they produce ATP.Aerobic respiration produces ATP.
Membrane proteins are important to carry out the process of selective transport across cells. Na/K channel proteins, ABC transsporters, ATP synthase, ETC chain proteins are some good examples. They mostly cost energy to transport a molecule (active transport) and other protein actually synthesize ATP (ATP synthase)
mitochondria provide adenosine triphosphate (ATP) which in turn supplies the energy for synthesizing new neurotransmitter or transmitter substance.
ATP and NADH
energy