The phage group (sometimes called the American Phage Group) was an informal network of biologists centered on

Max Delbrück Max Ludwig Henning Delbrück (; September 4, 1906 – March 9, 1981) was a German–American biophysicist who participated in launching the molecular biology research program in the late 1930s. He stimulated physical science, physical scientist ...

that contributed heavily to bacterial genetics and the origins of molecular biology in the mid-20th century. The phage group takes its name from

bacteriophage A bacteriophage (), also known informally as a phage (), is a virus that infects and replicates within bacteria. The term is derived . Bacteriophages are composed of proteins that Capsid, encapsulate a DNA or RNA genome, and may have structu ...

s, the bacteria-infecting

virus A virus is a submicroscopic infectious agent that replicates only inside the living Cell (biology), cells of an organism. Viruses infect all life forms, from animals and plants to microorganisms, including bacteria and archaea. Viruses are ...

es that the group used as experimental

model organism A model organism is a non-human species that is extensively studied to understand particular biological phenomena, with the expectation that discoveries made in the model organism will provide insight into the workings of other organisms. Mo ...

s. In addition to Delbrück, important scientists associated with the phage group include:

Niels Jerne Niels Kaj Jerne, FRS (23 December 1911 – 7 October 1994) was a Danish immunologist. He shared the Nobel Prize in Physiology or Medicine in 1984 with Georges J. F. Köhler and César Milstein "for theories concerning the specificity in dev ...

Salvador Luria Salvador Edward Luria (; ; born Salvatore Luria; August 13, 1912 – February 6, 1991) was an Italian microbiologist, later a Naturalized citizen of the United States#Naturalization, naturalized U.S. citizen. He won the Nobel Prize in Physiology ...

, Alfred Hershey,

Seymour Benzer Seymour Benzer (October 15, 1921 – November 30, 2007) was an American physicist, molecular biologist and behavioral geneticist. His career began during the molecular biology revolution of the 1950s, and he eventually rose to prominence in the ...

, Charles Steinberg, Gunther Stent, James D. Watson, Frank Stahl, and Renato Dulbecco.

Origins of the phage group: people, ideas, experiments and personal relationships

Bacteriophages had been a subject of experimental investigation since Félix d'Herelle had isolated and developed methods for detecting and culturing them, beginning in 1917. Delbrück, a physicist-turned biologist seeking the simplest possible experimental system to probe the fundamental laws of life, first encountered phages during a 1937 visit to T. H. Morgan's fly lab at

Caltech The California Institute of Technology (branded as Caltech) is a private university, private research university in Pasadena, California, United States. The university is responsible for many modern scientific advancements and is among a small g ...

. Delbrück was unimpressed with Morgan's experimentally complex model organism ''

Drosophila ''Drosophila'' (), from Ancient Greek δρόσος (''drósos''), meaning "dew", and φίλος (''phílos''), meaning "loving", is a genus of fly, belonging to the family Drosophilidae, whose members are often called "small fruit flies" or p ...

'', but another researcher, Emory Ellis, was working with the more elementary phage. During the next few years, Ellis and Delbrück collaborated on methods of counting phage and tracking growth curves; they established the basic step-wise pattern of virus growth (the most obvious features of the lytic cycle).

Emory Ellis (1906–2003) and Max Delbrück (1906–1981)

In a retrospective article, Emory Ellis stated "Soon after Max Delbruck arrived at the Caltech Biology Division, intent on discovering how his background in physical sciences could be productively applied to biological problems, I showed him some step-growth curves. His first comment was 'I don't believe it.'" However, as Ellis describes, Delbruck soon dispelled this initial reaction of disbelief by his own analysis of the phenomenon, and promptly joined in the work with enthusiasm, bringing to it his training in mathematics and physics, and intense interest in genetics. Their initial collaborative findings were published in 1939.

Niels K. Jerne (1911-1994)

In the early 1950s, Niels K. Jerne employed bacteriophages—specifically phage T4—as model antigens to study antigen-antibody interactions with greater precision. At the Danish State Serum Institute, Jerne recognized that phage neutralization assays allowed for quantitative measurements of immune responses using extremely small antigen quantities. This system enabled the detection of single virus particles, allowing him to observe the strength and specificity of antibody binding with unprecedented sensitivity. While using this system, Jerne made a surprising discovery: non-immunized (normal) serum already contained low levels of antibodies capable of inactivating bacteriophage T4. Furthermore, when animals were immunized with the phage, the specific antibody levels rose quickly—suggesting that the immune system possessed a pre-existing repertoire of antibodies that could be amplified upon antigen exposure. These findings challenged the prevailing view that antibodies were synthesized only after antigen stimulation. Jerne interpreted this as evidence that the body naturally produces a diverse array of antibodies prior to encountering specific antigens. In his 1955 paper, he proposed the "natural selection theory" of antibody formation, arguing that antigens act not by instructing cells to make new antibodies, but by selecting from an existing pool of antibodies and promoting their proliferation. This concept directly influenced the later development of the clonal selection theory and marked a foundational shift in immunological thought.

Salvador Luria (1912–1991) and Alfred Hershey (1908–1997)

The phage group started around 1940, after Delbrück and Luria had met at a physics conference. Delbrück and

began a series of collaborative experiments on the patterns of infection for different strains of bacteria and bacteriophage. They soon established the "mutual exclusion principle" that an individual bacterium can only be infected by one strain of phage. In 1943, their "fluctuation test", later dubbed the Luria–Delbrück experiment, showed that genetic

mutations In biology, a mutation is an alteration in the nucleic acid sequence of the genome of an organism, virus, or extrachromosomal DNA. Viral genomes contain either DNA or RNA. Mutations result from errors during DNA or viral replication, mitosi ...

for phage resistance arise in the absence of

selection Selection may refer to: Science * Selection (biology), also called natural selection, selection in evolution ** Sex selection, in genetics ** Mate selection, in mating ** Sexual selection in humans, in human sexuality ** Human mating strat ...

, rather than being a response to selection.Salvador E. Luria. ''A Slot Machine, A Broken Test Tube: An Autobiography''. Harper & Row, New York: 1984. Pp. 228. (USA and Canada) The traditional wisdom among bacteriologists prior to 1943 was that bacteria had no chromosomes and no genes. The Luria–Delbrück experiment showed that bacteria, like other established model genetic organisms, have genes, and that these can spontaneously mutate to generate mutants that may then reproduce to form clonal lineages. That year, they also began working with Alfred Hershey, another phage experimenter. (The three would share the 1969

Nobel Prize in Physiology or Medicine The Nobel Prize in Physiology or Medicine () is awarded yearly by the Nobel Assembly at the Karolinska Institute for outstanding discoveries in physiology or medicine. The Nobel Prize is not a single prize, but five separate prizes that, acco ...

, "for work on the replication mechanism and genetics of viruses".) Hershey, described retrospectively the circumstances leading to the experiment using phage that he performed with his research assistant, Martha Chase, in 1952, later known as the Hershey–Chase experiment. This experiment provided key evidence that DNA, as distinct from protein, is the genetic material of the phage and therefore the likely genetic material generally. In 1946, Luria made a finding that was destined to open up a new insight on how the stability of DNA is achieved (see Luria, pg. 96). What he discovered was that when, after UV irradiation, two or more "dead" phage entered the same bacterial cell, they often became alive again and produced normal live progeny. This was the first example of reactivation of cells or organisms that had been damaged by radiation. He interpreted the reactivation, correctly, as a result of genetic recombination (see also

homologous recombination Homologous recombination is a type of genetic recombination in which genetic information is exchanged between two similar or identical molecules of double-stranded or single-stranded nucleic acids (usually DNA as in Cell (biology), cellular organi ...

James Watson James Dewey Watson (born April 6, 1928) is an American molecular biology, molecular biologist, geneticist, and zoologist. In 1953, he co-authored with Francis Crick the academic paper in ''Nature (journal), Nature'' proposing the Nucleic acid ...

(future co-discover of the Watson–Crick structure of DNA in 1953, and winner of the Nobel Prize, 1962), was Luria's first graduate student at the Indiana University. As his PhD thesis project, Watson showed that X-rayed phage can participate in

genetic recombination Genetic recombination (also known as genetic reshuffling) is the exchange of genetic material between different organisms which leads to production of offspring with combinations of traits that differ from those found in either parent. In eukaryot ...

and multiplicity reactivation. As remembered by Luria (1984, pg. 97) the discovery of reactivation of irradiated phage (referred to as " multiplicity reactivation") immediately started a flurry of activity in the study of repair of radiation damage within the early phage group (reviewed by Bernstein in 1981). It turned out later that the repair of damaged phage by mutual help that Luria had discovered was only one special case of DNA repair. Cells of all types, not just, bacteria and their viruses, but all organisms studied, including humans, are now known to have complex biochemical processes for repairing DNA damages (see

DNA repair DNA repair is a collection of processes by which a cell (biology), cell identifies and corrects damage to the DNA molecules that encode its genome. A weakened capacity for DNA repair is a risk factor for the development of cancer. DNA is cons ...

). DNA repair processes are also now recognized as playing critical roles in protecting against aging, cancer, and infertility.

James Watson (b. 1928) and Renato Dulbecco (1914–2012)

Jim Watson, in a retrospective article,Watson, J. D. "Growing up in the phage group" in ''Phage and the Origins of Molecular Biology'' (2007) Edited by John Cairns, Gunther S. Stent, and James D. Watson, Cold Spring Harbor Laboratory of Quantitative Biology, Cold Spring Harbor, Long Island, New York described his first experiences as a student with Luria in 1947. Apparently, according to Watson "…many students were afraid of Luria who had a reputation of being arrogant toward people who were wrong." However, as the fall term wore on, Watson "saw no evidence of the rumored inconsiderateness toward dimwits." Thus with no real reservations (except for occasional fear that he was not bright enough to move in his circle) he asked Luria whether he could do research under his direction in the spring term. Luria promptly said yes, and gave Watson the task of studying X-ray-induced multiplicity reactivation of phage as described above. The only other scientist in Luria's lab at that time, with whom Watson shared a lab bench, was Renato Dulbecco (a future member of the phage group), who had recently arrived from Italy to do experiments on phage multiplicity reactivation. Later that semester (1948), Watson met, for the first time, Delbruck who was briefly visiting Luria. Watson wrote "Almost from Delbruck's first sentence, I knew I was not going to be disappointed. He did not beat around the bush and the intent of his words was always clear. But even more important to me was his youthful appearance and spirit." Watson noted that on this occasion, as on many subsequent occasions, Delbruck talked about Bohr (the physicist) and his belief that a complementarity principle, perhaps like that needed for understanding quantum mechanics, would be the key to the real understanding of biology. In 1950, Renato Dulbecco now at Caltech with Delbrück, worked out a procedure for assaying animal virus particles by their formation of plaques on a sheet of cultured cells, just as phage form plaques on a lawn of bacterial cells. This procedure set the stage for Dulbecco to implement a comprehensive research program for quantitative studies on animal viruses to fathom their intracellular reproductive cycle. This work was recognized by award of the Nobel Prize in 1975.

Matthew Meselson (b. 1930) and Franklin Stahl (b. 1929)

After the discovery of the structure of DNA in 1953, it was still unclear how DNA replicated. The favored model at the time was semi-conservative replication, but experimental proof was needed. The Meselson–Stahl experiment, performed by Matthew Meselson and Franklin Stahl in 1958, was the key experiment that provided convincing evidence of semi-conservative replication, the mechanism now known to be correct. Meselson and Stahl described the circumstances leading to this key experiment. It has since been described as the "Most Beautiful Experiment in Biology". Its beauty is tied to the simplicity of the result, although the route that led to the experiment was far from simple.

Seymour Benzer (1921–2007) and Jean Weigle (1901–1968)

As described in a retrospective article,

joined Delbrück's phage group at Caltech in 1949 as a postdoctoral fellow. There he shared a lab room with Jean Weigle where they did collaborative experiments on phage T4. Upon leaving Caltech, Benzer continued experiments on phage T4 at the Pasteur Institute in Paris and then Purdue University where he developed a system for studying the fine structure of the gene using mutants defective in the rIIA and rIIB genes. These genetic experiments, involving crosses of rII mutants, led to the finding of a unique linear order of mutational sites within the genes. This result provided strong evidence for the key idea that the gene has a linear structure equivalent to a length of DNA with many sites that can independently mutate. In 1952,

had discovered the phenomenon of "restriction-modification" (the modification of phage growing within an infected bacterium, so that upon their release and re-infection of a related bacterium the phage's growth is restricted) (described by Luria, pgs. 45 and 99). Weigle, working with Giuseppe Bertani and

Werner Arber Werner Arber (born 3 June 1929 in Gränichen, Aargau) is a Swiss microbiologist and geneticist. Along with American researchers Hamilton Smith and Daniel Nathans, Werner Arber shared the 1978 Nobel Prize in Physiology or Medicine for the discov ...

, soon clarified the basis for this phenomenon. They showed that restriction was actually due to attack by specific bacterial enzymes on the modified phage's DNA. This work led to the discovery of the class of enzymes now known as "

restriction enzyme A restriction enzyme, restriction endonuclease, REase, ENase or'' restrictase '' is an enzyme that cleaves DNA into fragments at or near specific recognition sites within molecules known as restriction sites. Restriction enzymes are one class o ...

s". These enzymes allowed controlled manipulation of DNA in the laboratory, thus providing the foundation for the development of genetic engineering. Weigle also demonstrated the inducible nature of DNA damage-response genes in bacteria, a phenomenon that has come to be known as the

SOS response The SOS response is a global transcriptional response to DNA damage in prokaryotes, in which the cell cycle is arrested and DNA repair mechanisms (error-free as well as error-prone) are induced. The regulation of this response is driven by two p ...

. This response includes DNA damage-inducible mutagenesis (termed Weigle mutagenesis in his honor) and inducible repair following DNA damage (termed Weigle reactivation).

Sydney Brenner (1927–2019) and Gunther Stent (1924–2008)

In 1961,

Sydney Brenner Sydney Brenner (13 January 1927 – 5 April 2019) was a South African biologist. In 2002, he shared the Nobel Prize in Physiology or Medicine with H. Robert Horvitz and Sir John E. Sulston. Brenner made significant contributions to wo ...

, an early member of the phage group, collaborated with Francis Crick, Leslie Barnett and Richard Watts-Tobin at the Cavendish Laboratory in Cambridge to perform genetic experiments that demonstrated the basic nature of the genetic code for proteins. These experiments, carried out with mutants of the rIIB gene of phage T4, showed, that for a gene that encodes a protein, three sequential bases of the gene's DNA specify each successive amino acid of the protein. Thus the genetic code is a triplet code, where each triplet (called a codon) specifies a particular amino acid. They also obtained evidence that the codons do not overlap with each other in the DNA sequence encoding a protein, and that such a sequence is read from a fixed starting point. Gunther Stent joined the phage group in 1948 after taking their phage course at Cold Spring Harbor, New York. The ongoing informal discussions among these workers on the progress of their research led to a book by Stent entitled ''Molecular Biology of Bacterial Viruses'' (dedicated to Max Delbrück) which was a lucid account of the accomplishments in this emerging field up to 1963. Later, in his memoirs, Stent (1998) described some of the activities and personal interactions that illustrated the unique intellectual spirit of the phage group during its early crucial years (1948-1950).

Role of Max Delbrück

Delbrück, through his charm and enthusiasm, brought many biologists (and physicists) into phage research in the early 1940s (see: Charles Steinberg). In 1944, Delbrück promoted the "Phage Treaty", a call for phage researchers to focus on a limited number of phage and bacterial strains, with standardized experimental conditions. This helped to make research from different laboratories more easily comparable and replicable, helping to unify the field of bacterial genetics.

Phage course at Cold Spring Harbor Laboratory and at Caltech

Apart from direct collaborations, the main legacy of the phage group resulted from the yearly summer phage course taught at

Cold Spring Harbor Laboratory Cold Spring Harbor Laboratory (CSHL) is a private, non-profit institution with research programs focusing on cancer, neuroscience, botany, genomics, and quantitative biology. It is located in Laurel Hollow, New York, in Nassau County, on ...

and taught sporadically at Caltech. Beginning in 1945, Delbrück and others taught young biologists the fundamentals of phage biology and experimentation, instilling the phage group's distinctive math- and physics-oriented approach to biology. Many of the leaders of the emerging field of

molecular biology Molecular biology is a branch of biology that seeks to understand the molecule, molecular basis of biological activity in and between Cell (biology), cells, including biomolecule, biomolecular synthesis, modification, mechanisms, and interactio ...

were alumni of the phage course, which continued to be taught through the 1950s and 1960s. In 1995, Millard Susman published a retrospective article on the phage course as it was given over the years (1945 – 1970) both at Cold Spring Harbor (New York) and at the California Institute of Technology. The article lists many of the graduates of the course, describes some of their accomplishments, and provides interesting anecdotes related to the course.

Richard Feynman Richard Phillips Feynman (; May 11, 1918 – February 15, 1988) was an American theoretical physicist. He is best known for his work in the path integral formulation of quantum mechanics, the theory of quantum electrodynamics, the physics of t ...

, the distinguished Caltech theoretical physicist, learned how to work with phage during the summer of 1961 with the help of Charles M. Steinberg, and his experimental results were included in a publication by Edgar et al.

Conditional lethal mutants

The isolation of conditional lethal mutants of phage during 1962-1964 by the phage group members provided an opportunity to study the function of virtually all of the genes that are essential for growth of the phage under laboratory conditions. One class of conditional lethal mutants is known as amber mutants. These mutants were isolated and genetically characterized by Richard Epstein, Antoinette Bolle and Charles M. Steinberg in 1962 (although publication of their initial findings was delayed for 50 years: see Epstein et al., 2012.). A more complete genetic characterization of the amber mutants was described by Epstein et al. in 1964. Another class of conditional lethal mutants, referred to as temperature-sensitive mutants, was obtained by Robert Edgar and Ilga Lielausis. Studies of these two classes of mutants led to considerable insight into numerous fundamental biologic problems. Thus understanding was gained on the functions and interactions of the proteins employed in the machinery of DNA replication, repair and recombination, and on how viruses are assembled from protein and nucleic acid components (molecular morphogenesis). Furthermore, the role of chain terminating codons was elucidated. One noteworthy study was performed by Sydney Brenner and collaborators using amber mutants defective in the gene encoding the major head protein of phage T4. This experiment provided strong evidence for the widely held, but prior to 1964 still unproven, "sequence hypothesis" that the amino acid sequence of a protein is specified by the nucleotide sequence of the gene determining the protein. Thus, this study demonstrated the co-linearity of the gene with its encoded polypeptide.