Answer:
Bond D
Explanation:
The molecule in the model attached to this question is ADENOSINE TRIPHOSPHATE, commonly known as ATP. ATP is a unique molecule that carries and transfers energy in the cells of living organisms. It is made up of three components namely: ADENINE (nitrogenous base), RIBOSE (pentose sugar), PHOSPHATE GROUP (three).
ATP is able to carry out its function of storing and transferring energy via one of it's phosphate bonds (the last). ATP stores energy when a phosphate group is added to ADP to form ATP while it releases/transfers energy for use when that last phosphate bond is broken. Hence, according to this question, ATP releases the most energy for cellular processes when BOND D (last phosphoanhydride bond) is broken.
Answer:
You need Light for Chlorophyll activation
So I guess its The Light Absorbing Pigment.
Answer:
yes
Explanation:
They also have appendages that are jointed and their bodies are segmented.
Answer and Explanation: GFP gene is a gene that encodes a green fluorescent protein. When bacteria and plasmid are combined, the gene is expressed as observed by the results: plasmid with GFP gene produces colonies with green color; while plasmid without GFP produces white colonies.
Ampicillin is an antibiotic, i.e., bacteria is naturally suscetiple to it.
Plasmid has an ampicillin resistant gene. This is demonstrated in the experiment: when there is plasmid, the gene can be expressed, allowing colonies to grow. But, when bacteria is not combined with plasmid, it is not resistant to the antibiotic, so no colonies are formed.
I think the answer is c) the preservatives slow the growth og mold and bacteria