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How did Griffith determine which strain caused disease?

How did Griffith determine which strain caused disease?

Upon isolating the live bacteria from the dead mouse, only the S strain of bacteria was recovered. When this isolated S strain was injected into fresh mice, the mice died. Griffith concluded that something had passed from the heat-killed S strain into the live R strain and transformed it into the pathogenic S strain.

What was the most important concept demonstrated by Griffith’s experiment?

The experiment of Griffith that demonstrated the concept of the transforming principle. Avery, MacLeod and McCarty extended the work of Griffith. They used his system, but rather than working with the mice they only studied the bacterial phenotypes relative to the material from the dead type IIIS.

What happened when Griffith injected mice with the pneumonia causing strain of bacteria?

The disease-causing bacteria (S strain) grew into smooth colonies on culture plates, whereas the harmless bacteria (R strain) produced colonies with rough edges. When Griffith injected mice with disease-causing bacteria, the mice developed pneumonia and died.

What did Griffith conclude from his experiments he concluded that?

Griffith concluded that the R-strain bacteria must have taken up what he called a “transforming principle” from the heat-killed S bacteria, which allowed them to “transform” into smooth-coated bacteria and become virulent.

What was Avery’s conclusion?

Avery concluded that DNA is the genetic material of the cell. As the experiments of Griffith and Avery illustrate, science is a process in which discoveries often build upon the results of previous experiments.

What is the conclusion of Hershey and Chase experiment?

Hershey and Chase concluded that DNA, not protein, was the genetic material. They determined that a protective protein coat was formed around the bacteriophage, but that the internal DNA is what conferred its ability to produce progeny inside a bacterium.

What was Griffith’s conclusion?

Griffith concluded that something in the heat-killed S bacteria ‘transformed’ the hereditary properties of the R bacteria. The nature of this ‘transforming principle’ was unknown.

Which bacteria killed the mice in Griffith’s transformation experiment?

Transformation Experiment. Pneumococcus bacteria include two strains, a virulent S strain with a Smooth glycoprotein coat that kills mice (left), and a non-virulent R Rough strain that does not (middle).

What did Hershey and Chase conclude was the genetic material of the virus circle one?

What did Hershey and Chase conclude?

Hershey and Chase concluded that protein was not genetic material, and that DNA was genetic material. The Hershey-Chase experiments mostly ended scientists’ suspicions that genes were made of protein rather than DNA.

What did Frederick Griffith do with the genetic material?

In 1928, British bacteriologist Frederick Griffith conducted a series of experiments using Streptococcus pneumoniae bacteria and mice. Griffith wasn’t trying to identify the genetic material, but rather, trying to develop a vaccine against pneumonia. In his experiments, Griffith used two related strains of bacteria, known as R and S.

How did Griffith kill bacteria in his experiments?

The one which was infected with the S strain developed pneumonia and died while that infected with the R strain stayed alive. In the second stage, Griffith heat-killed the S strain bacteria and injected into mice, but the mice stayed alive. Then, he mixed the heat-killed S and live R strains. This mixture was injected into mice and they died.

What was the Griffith experiment and the transforming principle?

Griffith Experiment & Transforming Principle. Griffith experiment was a stepping stone for the discovery of genetic material. Frederick Griffith experiments were conducted with Streptococcus pneumoniae. During the experiment, Griffith cultured Streptococcus pneumoniae bacteria which showed two patterns of growth.

How did Griffith isolate pneumococcus from dead mice?

Griffith was also able to isolate both live II-R and live III-S strains of pneumococcus from the blood of these dead mice. Griffith concluded that the type II-R had been “transformed” into the lethal III-S strain by a “transforming principle” that was somehow part of the dead III-S strain bacteria.