Embryo Project Encyclopedia Articles

In 1916, eugenicist Madison Grant published the book The Passing of the Great Race; or The Racial Basis of European History, hereafter The Passing of the Great Race, where he claimed that northern Europeans, or Nordics, are biologically and culturally superior to the rest of humanity. Charles Scribner’s Sons in New York City, New York, published the volume. Grant claimed that the Nordic race was at risk of extinction and advocated for the creation of laws in the US to decrease the population of people he considered inferior. According to Grant’s biographer Jonathan Spiro, Grant’s book synthesized a range of racist and pseudoscientific eugenics claims in prose that was accessible to the public. In the US, The Passing of the Great Race was praised by politicians, including former presidents Theodore Roosevelt and Calvin Coolidge, and cited as justification for laws that restricted immigration based on ethnicity and nationality. Adolf Hitler referred to The Passing of the Great Race as his Bible, and during the Nuremberg Trials in the 1940s, Nazi leaders who were prosecuted for war crimes committed during World War II presented the book as evidence that eugenics did not solely originate in Germany but rather had deep roots in the United States.

The North Carolina state legislature passed The Woman’s Right to Know Act in 2011, which places several restrictions on abortion care in the state. The Woman’s Right to Know Act, or the Act, imposes informed consent requirements that physicians must fulfill before performing an abortion as well as a twenty-four hour waiting period between counseling and the procedure for people seeking abortion, with exceptions for cases of medical emergency. Then-governor of North Carolina Beverly Perdue initially vetoed House Bill 854, which contained the Act, but the state legislature overrode her veto to pass the bill. In response to a lawsuit that the American Civil Liberties Union, or ACLU, and other organizations filed in 2011, a US district court judge blocked the law’s ultrasound mandate from going into effect and a later court case determined that the mandate was illegal. With the passage of the Act in North Carolina, the state passed several abortion regulations and mandated that abortion providers must inform women of specific details about their pregnancy before performing the abortion procedure.

In January 2014, Mary Gatter and colleagues published “Relationship between Ultrasound Viewing and Proceeding to Abortion” in Obstetrics and Gynecology hereafter “Ultrasound Viewing.” As of 2021, ten states require women to undergo an ultrasound before they may consent to having an abortion. Self-described pro-life organizations assert that viewing an image of the fetus will dissuade women from having an abortion. The authors reviewed women’s medical records from over fifteen thousand visits to one abortion provider in 2011.The authors determined viewing an ultrasound image did not change the minds of women who were already highly certain that abortion was the right decision, challenging the idea that mandatory ultrasound viewing has any effect on women’s decision to have an abortion.

Johann Gregor Mendel studied plants and their patterns of inheritance in Austria during the nineteenth century. Mendel experimented with the pea plant, Pisum, and his publication, 'Versuche uber Pflanzenhybriden' (“Experiments on Plant Hybridization”), published in 1866, revolutionized theories of trait inheritance. Mendel’s discoveries relating to factors, traits, and how they pass between generations of organisms enabled scientists in the twentieth century to build theories of genetics.

Wilhelm Johannsen in Denmark first proposed the distinction between genotype and phenotype in the study of heredity in 1909. This distinction is between the hereditary dispositions of organisms (their genotypes) and the ways in which those dispositions manifest themselves in the physical characteristics of those organisms (their phenotypes). This distinction was an outgrowth of Johannsen's experiments concerning heritable variation in plants, and it influenced his pure line theory of heredity. While the meaning and significance of the genotype-phenotype distinction has been a topic of debate-among Johannsen's contemporaries, later biological theorists, and historians of science-many consider the distinction one of the conceptual pillars of twentieth century genetics. Moreover some have used it to characterize the relationships between studies of development, genetics, and evolution.

In 1868 in England, Charles Darwin proposed his pangenesis theory to describe the units of inheritance between parents and offspring and the processes by which those units control development in offspring. Darwin coined the concept of gemmules, which he said referred to hypothesized minute particles of inheritance thrown off by all cells of the body. The theory suggested that an organism's environment could modify the gemmules in any parts of the body, and that these modified gemmules would congregate in the reproductive organs of parents to be passed on to their offspring. Darwin's theory of pangenesis gradually lost popularity in the 1890s when biologists increasingly abandoned the theory of inheritance of acquired characteristics (IAC), on which the pangenesis theory partially relied. Around the turn of the twentieth century, biologists replaced the theory of pangenesis with germ plasm theory and then with chromosomal theories of inheritance, and they replaced the concept of gemmules with that of genes.

Muriel Wheldale Onslow studied flowers in England with genetic and biochemical techniques in the early twentieth century. Working with geneticist William Bateson, Onslow used Mendelian principles and biochemical analysis together to understand the inheritance of flower colors at the beginning of the twentieth century. Onslow's study of snapdragons, or Antirrhinum majus, resulted in her description of epistasis, a phenomenon in which the phenotypic effect of one gene is influenced by one or more other genes. She discovered several biochemicals related to color formation. Onslow's methodology also partly contributed to the establishment of the field of chemical genetics.

In 2002 Eric Davidson and his research team published 'A Genomic Regulatory Network for Development' in Science. The authors present the first experimental verification and systemic description of a gene regulatory network. This publication represents the culmination of greater than thirty years of work on gene regulation that began in 1969 with 'A Gene Regulatory Network for Development: A Theory' by Roy Britten and Davidson. The modeling of a large number of interactions in a gene network had not been achieved before. Furthermore, this model revealed behaviors of the gene networks that could only be observed at the levels of biological organization above that of the gene.

In 1881 British opthalmologist Warren Tay made an unusual observation. He reported a cherry-red spot on the retina of a one-year-old patient, a patient who was also showing signs of progressive degeneration of the central nervous system as manifested in the child's physical and mental retardation. This cherry-red spot is a characteristic that would eventually come to be associated with metabolic neurological disorders like Sandhoff, GM-1, Niemann-Pick, and, to the credit of Tay, the lysosomal storage disorder known as Tay-Sachs disease. Tay shares the disease's title with New York neurologist Bernard Sachs, who described the cellular changes present in the disease as well as its potential for heritability, shortly after Tay's observation. Sachs also noted the higher occurrence of the disease in Jews of eastern and central European descent as well as the typical pattern of the disease, including early blindness, severe retardation, and death in early childhood.