Paul M. Bingham
Paul Montgomery Bingham is an American molecular biologist and evolutionary biologist, Associate Professor in the Department of Biochemistry and Cell Biology at Stony Brook University and Vice President for Research at Rafael Pharmaceuticals. He is known for his work in molecular biology, and has also published recent articles and a book on human evolution.
Biography
Bingham received his undergraduate degree at Blackburn College in Carlinville, Illinois, and then completed his PhD in Biochemistry and Molecular Biology at Harvard University in 1980 after completing an MS in Microbiology at the University of Illinois. He spent two years at the National Institute of Environmental Health Sciences (NIEHS) before joining the faculty of the Department of Biochemistry and Cell Biology and the School of Medicine at Stony Brook University in 1982.Molecular biology
He was part of a collaborative team that discovered the parasitic DNA sequence element, the P element transposon. This enabled a widely used strategy still used today for retrieving genes from animals. It also shed fundamental new light on how evolution shapes the individual genes that collaborate to build organisms.With his wife, he demonstrated that transposon insertion mutations were responsible for most of the alleles used in the development of classical genetics. He also collaborated with Carl Wu and Sarah Elgin on fundamental properties of metazoan chromatin structure. In collaboration with Margaret Kidwell, then at Brown University, and Gerry Rubin, then at the Carnegie Institution, he carried out the molecular cloning of the P element transposon in Drosophila. This work revolutionized the retrieval of genes in Drosophila and subsequently contributed to progress in metazoan molecular and developmental genetics. He and his collaborators were the first to propose the use of P element transposon tagging to clone the first metazoan RNA polymerase subunit. This work demonstrated that the P element is a recently invading parasite of the Drosophila genome and gene pool. Thus, P became the first clearly defined metazoan example of this long-suspected phenomenon.
His research group also worked on the nature of metazoan gene regulation and the elucidation of the first case of autoregulation of gene expression at the level of pre-mRNA splicing and of critical features of the nuclear organization of pre-mRNA processing and transport This latter work first clearly established the now-widely accepted model of channeled diffusion for the movement of most pre-mRNAs through the nuclear compartment.
Bingham and Zachar discovered the first-in-class anti-cancer mitochondrial metabolism drug, currently in Phase III registrational clinical trials in pancreatic ductal adenocarcinoma and acute myeloid leukemia. This work is now being done in collaboration with Rafael Pharmaceuticals.
Human evolutionary biology
In the mid-1990s, he developed a theory of human uniqueness that proposes a novel explanation of why humans have evolved to be ecologically dominant. The theory has been published in three peer-reviewed journals: The Quarterly Review of Biology, Evolutionary Anthropology and the Journal of Theoretical Biology.He and co-author Joanne Souza have developed the theory further in a self-published book, Death from a Distance and the Birth of a Humane Universe. This work builds on W.D. Hamilton's theory of kin selection and posits that the genus Homo evolved when an ancestral organism developed the ability to effectively manage non-kin conflicts of interests by lowering the cost of coercion between non-kin individuals.
The theory, using precedents established in biological theory, proposes to explain many aspects of human social and sexual behavior. It proposed to account for the evolution of the human species from the advent of its phylogenetic branching from other hominins through physiological and behavioral adaptations until our current civilization. This theory of human uniqueness claims to answer the fundamental scientific challenge posed by Charles Darwin, to explain the descent of man: how did the 'incremental' process of evolution by natural selection suddenly produce an utterly unprecedented kind of animal, humans? It suggests an explanation of human origins, and also of human properties.
According to his theory, the cost to an enforcer of coercing a cheating individual into a cooperative effort, known as the free-rider problem, was lowered when a precursor species to humans developed a way to threaten adult conspecifics from a distance by evolving the ability to throw projectiles with sufficient skill to reliably injure the cheater, especially conjointly with others. This reduced the personal risk to multiple enforcers as formulated by Lanchester's Square Law, when they gang up on a cheater.
The theory proposes that this elite throwing ability initially allowed bands of proto-humans improved capacity to repel predators and scavenge their kills in the African savanna.
It was later adapted as threat projection towards free-riding conspecifics in non-kin cooperative groups
that made the cooperation evolutionarily stable against cheaters who, without coercion by this threat, would otherwise flourish and displace co-operators.
The theory further generalizes to a theory of history, claiming to account for many salient events of the two-million-year course of the human lineage—from the evolution of the genus Homo to the inception of behavioral modernity to the Neolithic Revolution to the rise of the nation-state.
Academic work
In collaboration with Joanne Souza, he has developed a course on the logic and implications of this new theory .Bingham has served as the Faculty Director of the Freshmen College of Human Development at Stony Brook .
Bingham also serves on the management team of Rafael Pharmaceuticals, a firm developing cancer therapies, as Vice President of Research. He and his collaborator, Prof. Zuzana Zachar, recently received the Maffetone Research Prize from the Carol M. Baldwin Breast Cancer Research Fund for their cancer work.