Answer:
The three adaptive advantages of the mammalian anatomy are as follows:
No eggs. Mammals have well developed offspring that they can keep it safe inside their body until the time it is ready to be in the outside world.
Four legs under the body. It allows mammals to be highly developed when it comes to speed.
Fur. It protects the mammals’ skin.
Explanation:
Answer:
c. Miranda could accept an entry-level position as a medical
assistant and work her way up.
Explanation:
Answer: Un esfigmomanómetro, es un instrumento médico empleado para la medición indirecta de la presión arterial, proporcionando, por lo general, la medición en milímetros de mercurio (mmHg o torr).
Explanation: El brazalete del tensiómetro se coloca en el brazo o muñeca del paciente. En la zona inferior, tiene una cámara que se hincha, ya sea con la perilla manual o automáticamente en los digitales, impidiendo la circulación de la sangre por la presión aplicada.
Answer:
Polymerase chain reaction, or PCR, is a technique to make many copies of a specific DNA region in vitro (in a test tube rather than an organism).
PCR relies on a thermostable DNA polymerase, Taq polymerase, and requires DNA primers designed specifically for the DNA region of interest.
In PCR, the reaction is repeatedly cycled through a series of temperature changes, which allow many copies of the target region to be produced.
PCR has many research and practical applications. It is routinely used in DNA cloning, medical diagnostics, and forensic analysis of DNA.
PCR:
Polymerase chain reaction (PCR) is a common laboratory technique used to make many copies (millions or billions!) of a particular region of DNA. This DNA region can be anything the experimenter is interested in. For example, it might be a gene whose function a researcher wants to understand, or a genetic marker used by forensic scientists to match crime scene DNA with suspects.
Typically, the goal of PCR is to make enough of the target DNA region that it can be analyzed or used in some other way. For instance, DNA amplified by PCR may be sent for sequencing, visualized by gel electrophoresis, or cloned into a plasmid for further experiments.
PCR is used in many areas of biology and medicine, including molecular biology research, medical diagnostics, and even some branches of ecology.