Answer:
The answer of the given question is, "Differences in quality articulation and post-transcriptional mRNA preparing lead to a more prominent distinction in the proteome than the genome between the two cells"
Explanation:
The quantity of proteins communicated by a whole genome is known as "proteome." Though cells are generally comparative (and genome of all cells is practically comparable), their structure and capacity shift as needs be on the grounds that their genomic articulations change, which code for various arrangement of proteins (proteomes).
Answer:
La respuesta correcta es "el átomo esta compuesto por electrones de carga negativa embebidos dentro de un protón positivo, tal como un pudín de pasas".
Explanation:
El modelo atómico de Thomson, también conocido como el modelo de pudín de pasas, describe el átomo como un elemento compuesto por electrones de carga negativa embebidos dentro de una nube de carga positiva, tal como un pudín de pasas. Thomson fue el científico que descubrió los electrones en 1904, año en el que no se tenía mucha información aún de la interacción de las partículas subatómicas. En el modelo atómico de Thomson los electrones estaban distribuidos uniformemente, flotando alrededor de una nube de carga positiva.
The process of missing information
Answer:
For example, the heart and the blood vessels of the cardiovascular system circulate blood and transport oxygen and nutrients to all the body cells. Levels of Organization: Molecules form cells. Cells form tissues, and tissues form organs. Organs that fulfill related functions are called organ systems. Technically, blood is a transport liquid pumped by the heart (or an equivalent structure) to all parts of the body, after which it is returned to the heart to repeat the process. Blood is both a tissue and a fluid. It is a tissue because it is a collection of similar specialized cells that serve particular functions.
Answer:
The flexor relaxes and the extensor contracts to straighten (or extend) the limb at the same joint. Muscles get their signals to contract and relax from the brain. Ligaments are long, fibrous straps that fasten bones together. Tendons are bands of fibrous tissue that connect muscles to bones.
Explanation: