Organisms need nutrients to multiply
Answer:
by combining the DNA of two different organisms
Explanation:
Recombinant DNA is when researchers edit a gene to contain a novel sequence, such as one from another organism
A good example of this in the lab is when scientists combine genes with a fluorescent gene called green fluorescent protein, GFP. This is from jellyfish. The gene sequence can be tracked on to the end of a gene of interest in a cell population or organism. When the gene is transcribed and translated, the GFP sequence will also be transcribed and translated. This means it will be fluorescent green and easy to track and visualise in cells.
Answer:
Chlorophyll
Glucose
Explanation:
Plants are one of the famous autotophic organisms widely recognized. This is due to their photosynthetic ability. Plants are able to undergo Photosynthesis because of a certain light absorbing pigments called CHLOROPHYLL, found in the Chloroplast. This Chlorophyll absorbs red and blue light in the colour spectrum but reflects green light making plants that contains an abundance of them appear GREEN.
The photosynthesis mentioned above is the synthesis of organic molecules from inorganic ones using light energy from sun. It occurs in two major phases: light dependent stage and light-independent stage. The light dependent stage, which occurs in the thylakoid membrane of the Chloroplast, involves the production of ATP and NADPH molecules when a photon of light strikes Chlorophyll molecule making it excited to the point of splitting water molecules in a process called PHOTOLYSIS OF WATER.
The produced ATP and NADPH molecules are then used in the light independent stage also called Calvin Cycle to synthesize organic molecule (glucose) which serves as energy source for the plant.
The flagella and pili are similar in that they are both composed of proteins. <span>Flagella is made up of protein flagellin, while pili is composed of protein pilin. Both flagella and pili are tubular hollow, filamentous structures of bacteria. Both extend from the surface of the bacterial wall.</span>
Wind turbines convert wind energy into electrical energy that we can use.
Windmills convert wind energy into mechanical energy to grind wheat into flour.
