Molecule of the Month
October 2018

Aminoglycoside Antibiotics and Resistance

Bacteria become resistant to aminoglycosides by destroying them or changing their target.

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Health Focus: Antimicrobial Resistance

Antibiotics have saved countless lives, but pathogens are quickly finding ways to survive antibiotic treatment. Antibiotic-resistant bacteria are predicted to become the leading cause of death worldwide. They take many approaches: pumping antibiotics out of their cells, altering the molecular machinery that the antibiotics target, and attacking the antibiotics directly. Atomic structures publicly available in the PDB are revealing the details of drug resistance and providing new ways to combat it. Use the PDB-101 resources to learn about protein structures related to antibiotic action and resistance.

2019 Video Challenge for High School Students

Mechanisms of Bacterial Resistance to Aminoglycoside Antibiotics

RCSB PDB invites all high school students to tell a two-minute story that combines structural Biology and Medicine. Videos can be submited between January 15 and April 23, 2019.

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The Challenge | Learn | Participate | 2019 Judges

News and Events

Fall Newsletter Published

» 10/09/2018

Create a Nobel-Themed Bean Bag Toss

» 10/04/2018

2018 Nobel Prize in Chemistry

» 10/03/2018

2018 Nobel Prize in Physiology or Medicine

» 10/01/2018

Structural Biology and Nobel Prizes

» 09/28/2018

Celebrating National Postdoc Appreciation Week

» 09/17/2018

Public Symposium on Superbugs: Evolutionary Insights from the PDB

» 09/14/2018

Meet PDB in VR with Nanome

» 09/10/2018

Head Back to School with PDB-101

» 09/04/2018

Annual Report Published

» 08/28/2018

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Learn about the relationship between protein structure and function.
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The RCSB PDB Curricula provide authentic, hands-on teaching materials, individual and group activities and assessment suggestions.
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Education Corner: Using PDB Resources
Structural Biology Pipeline Meets the High School Classroom: Hypothesis-Based Structural Biology and Determination and Refinement of a Crystal Structure by Daniel Williams and SPARK participants
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Geis Digital Archive
Irving Geis (1908-1997) was a gifted artist who helped illuminate the field of structural biology with his iconic images. The Geis Digital Archive features many of his illustrations in the context of their molecular structures.

Images used with permission from the Howard Hughes Medical Institute (www.hhmi.org). All rights reserved.

DNA

Intermolecular Contacts in Hemoglobin S

Myoglobin

A-DNA

Hemoglobin

Immunoglobulin G (IgG)

Lysozyme

Induced Lac Repressor

B-DNA

Crambin

Cytochrome c (unbound)

Lysozyme

Z-DNA

Myoglobin Fold

DPG-Hemoglobin Complex

Cytochrome c

Hemoglobin S

Collagen

Lac Repressor

Transfer Ribonucleic Acid (tRNA)

Aspartate Transcarbamoylase (ATCase)

Hemoglobin

TATA-Binding Protein (TBP)

Deoxyribonucleic Acid (DNA)

Oxyhemoglobin

Carboxypeptidase A

Trypsin

Deoxyhemoglobin

Tomato Bushy Stunt Virus (TBSV)

Myohemerythrin

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