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Antibody Structure01:10

Antibody Structure

65.5K
Overview
Antibodies, also known as immunoglobulins (Ig), are essential players of the adaptive immune system. These antigen-binding proteins are produced by B cells and make up 20 percent of the total blood plasma by weight. In mammals, antibodies fall into five different classes, which each elicits a different biological response upon antigen binding.
The Y-Shaped Structure of Antibodies Consists of Four Polypeptide Chains
Antibodies consist of four polypeptide chains: two identical heavy...
65.5K
Antibody Actions01:26

Antibody Actions

2.4K
Antibodies, or immunoglobulins, are critical players in the immune system's arsenal against invading pathogens. Produced by B cells and plasma cells, their primary role is to detect and bind to specific antigens, molecules found on the surface of pathogens like bacteria or viruses. Beyond antigen recognition, antibodies perform several vital functions that contribute to immune defense.
Neutralization
Antibodies can bind to pathogens, preventing them from infecting host cells. This process...
2.4K
Antibody Structure and Classes01:25

Antibody Structure and Classes

8.5K
Antibodies, also known as immunoglobulins, are produced by B cells in response to foreign substances, such as bacteria and viruses. These proteins are critical for recognizing and neutralizing these substances, protecting the body from potential harm.
The basic structure of an antibody consists of four protein chains: two identical heavy chains and two identical light chains. These chains are held together by disulfide bonds and other non-covalent interactions, forming a Y-shaped structure.
8.5K
Base Excision Repair01:54

Base Excision Repair

26.2K
One of the common DNA damages is the chemical alteration of single bases by alkylation, oxidation, or deamination. The altered bases cause mispairing and strand breakage during replication. This type of damage causes minimal change to the DNA double helix structure and can be repaired by the base excision repair (BER) pathways. BER corrects damaged DNA sequences by removing the damaged base and restoring the original base sequence using the complementary strand as a template.
The first step of...
26.2K
Lewis Acids and Bases02:33

Lewis Acids and Bases

48.3K
In 1923, G. N. Lewis proposed a generalized definition of acid-base behavior in which acids and bases are identified by their ability to accept or to donate a pair of electrons and form a coordinate covalent bond.
A coordinate covalent bond (or dative bond) occurs when one of the atoms in the bond provides both bonding electrons. For example, a coordinate covalent bond occurs when a water molecule combines with a hydrogen ion to form a hydronium ion. A coordinate covalent bond also results when...
48.3K
Weak Base Solutions03:21

Weak Base Solutions

24.9K
Some compounds produce hydroxide ions when dissolved by chemically reacting with water molecules. In all cases, these compounds react only partially and so are classified as weak bases. These types of compounds are also abundant in nature and important commodities in various technologies. For example, global production of the weak base ammonia is typically well over 100 metric tons annually, being widely used as an agricultural fertilizer, a raw material for chemical synthesis of other...
24.9K

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Related Experiment Video

Updated: Jan 27, 2026

Highly Stable, Functional Hairy Nanoparticles and Biopolymers from Wood Fibers: Towards Sustainable Nanotechnology
11:32

Highly Stable, Functional Hairy Nanoparticles and Biopolymers from Wood Fibers: Towards Sustainable Nanotechnology

Published on: July 20, 2016

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Antibody-based nanotechnology.

Yaron Hillman1, Dan Lustiger1, Yariv Wine1

  • 1School of Molecular Cell Biology and Biotechnology, George S. Wise Faculty of Life Sciences, Tel-Aviv University, Tel-Aviv 69978, Israel.

Nanotechnology
|March 26, 2019
PubMed
Summary
This summary is machine-generated.

Antibodies are crucial for adaptive immunity and offer high specificity for diverse applications. This review explores antibody properties, discovery methods, and their integration into nanotechnology for advanced diagnostics and therapeutics.

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Area of Science:

  • Immunology and Nanotechnology
  • Biotechnology and Biomolecular Engineering

Background:

  • Antibodies are key to adaptive immunity, neutralizing pathogens and recruiting immune cells.
  • Unique properties include high diversity, specificity, and structural integrity, enabling broad applications.
  • Antibodies are vital in pharmaceuticals and diagnostics, with potential in nanobiosensors, drug delivery, and nanomachines.

Purpose of the Study:

  • To review antibody properties, diversity generation, and discovery technologies.
  • To provide an overview of antibody-based nanotechnologies.
  • To explore novel applications of antibodies in nanotechnology and bridge interdisciplinary knowledge gaps.

Main Methods:

  • Review of existing literature on antibody properties and engineering.
  • Analysis of current antibody repertoire analysis and monoclonal antibody discovery technologies.
  • Exploration of antibody-based nanotechnologies and their potential applications.

Main Results:

  • Antibodies possess unique properties making them valuable in diverse biotechnological fields.
  • Advanced technologies facilitate antibody repertoire analysis and rapid monoclonal antibody discovery.
  • Antibodies are integral to developing nanobiosensors, targeted drug delivery, and nanomachines.

Conclusions:

  • Technological advancements in antibody engineering can significantly enhance nanotechnology applications.
  • Integrating antibody capabilities with nanotechnology opens new avenues for diagnostics and therapeutics.
  • Bridging the gap between antibody engineering and nanotechnology is crucial for future innovation.