Switching from Prokaryotic Molecular Biology to Eukaryotic Molecular Biology

Abstract: I n the history of biology, the early 1950s to the mid-1960s represent a period of landmark discoveries that led to the establishment of a new science named Molecular Biology. The discovery of the double helical structure of DNA by Watson and Crick in 1953 facilitated the formulation of specific questions related to the hottest questions of the time, gene replication and expression. Many ambitious and talented scientists with varied backgrounds (geneticists, biochemists, microbiologists, physicists, and others… Show more

“…Nomura founded our understanding of translational control of the synthesis of ribosomal proteins in Madison, and continued in Irvine with groundbreaking research concerning ribosome biogenesis in eukaryotes and the organization of the nucleoli. [9] It was Yonath and Wittmann who first demonstrated that it was indeed possible to crystallize ribosomal particles, the first crystals being those of the large subunit isolated from the extremophile Bacillus stearothermophilus, which was published in 1980. [10] Nevertheless, it still took 15 years until good and well-diffracting crystals were achieved, and significant technological improvements paved the way to collecting satisfying diffraction patterns, five years after the premature death of Wittmann in 1990.…”

Nobel Prize for the Elucidation of Ribosome Structure and Insight into the Translation Mechanism

“…Nomura founded our understanding of translational control of the synthesis of ribosomal proteins in Madison, and continued in Irvine with groundbreaking research concerning ribosome biogenesis in eukaryotes and the organization of the nucleoli. [9] It was Yonath and Wittmann who first demonstrated that it was indeed possible to crystallize ribosomal particles, the first crystals being those of the large subunit isolated from the extremophile Bacillus stearothermophilus, which was published in 1980. [10] Nevertheless, it still took 15 years until good and well-diffracting crystals were achieved, and significant technological improvements paved the way to collecting satisfying diffraction patterns, five years after the premature death of Wittmann in 1990.…”

Nobel Prize for the Elucidation of Ribosome Structure and Insight into the Translation Mechanism

“…In Nomura’s laboratory, the procedure for reconstitution of the small ribosomal subunit from its components was developed, which indicated that the ribosomal components contained the necessary information to adopt the correct ribosome structure (“the wonder of Masayasu”). Nomura founded our understanding of translational control of the synthesis of ribosomal proteins in Madison, and continued in Irvine with groundbreaking research concerning ribosome biogenesis in eukaryotes and the organization of the nucleoli 9…”

Rhodium‐Catalyzed Linear Cross‐Trimerization of Two Different Alkynes with an Alkene and Two Different Alkenes with an Alkyne

“…So [9] Yonath und Wittmann demonstrierten als erste, dass die Kristallisierung ribosomaler Partikel tatsächlich möglich ist. Die Struktur der ersten Kristalle wurde 1980 veröffentlicht; [10] dabei handelte es sich um solche der großen Untereinheit, die aus dem Extremophil Bacillus stearothermophilus isoliert wurde.…”

“…Nomura legte den Grundstein für unser Verständnis der translationalen Kontrolle der Synthese von ribosomalen Proteinen in Madison und setzte seine Forschung anschließend in Irvine mit bahnbrechenden Arbeiten zur Ribosomenbiogenese in Eukaryoten und der Organisation der Nucleolen fort. [9] Yonath und Wittmann demonstrierten als erste, dass die Kristallisierung ribosomaler Partikel tatsächlich möglich ist. Die Struktur der ersten Kristalle wurde 1980 veröffentlicht; [10] dabei handelte es sich um solche der großen Untereinheit, die aus dem Extremophil Bacillus stearothermophilus isoliert wurde.…”

Nobelpreiswürdig: Aufklärung der Ribosomenstruktur und Einblicke in den Mechanismus der Translation