In biochemistry and pharmacology, a ligand is a substance that forms a complex with a biomolecule to serve a biological purpose. In protein-ligand binding, the ligand is usually a molecule which produces a signal by binding to a site on a target protein. The binding typically results in a change of conformation of the target protein. In DNA-ligand binding studies, the ligand can be a small molecule, ion,[1] or protein[2] which binds to the DNA double helix. The relationship between ligand and binding partner is a function of charge, hydrophobicity, and molecular structure. The instance of binding occurs over an infinitesimal range of time and space, so the rate constant is usually a very small number.
Binding occurs by intermolecular forces, such as ionic bonds, hydrogen bonds and Van der Waals forces. The association of docking is actually reversible through dissociation. Measurably irreversible covalent bonding between a ligand and target molecule is atypical in biological systems. In contrast to the definition of ligand in metalorganic and inorganic chemistry, in biochemistry it is ambiguous whether the ligand generally binds at a metal site, as is the case in hemoglobin. In general, the interpretation of ligand is contextual with regards to what sort of binding has been observed. The etymology stems from ligare, which means 'to bind'.
Ligand binding to a receptor protein alters the chemical conformation by affecting the three-dimensional shape orientation. The conformation of a receptor protein composes the functional state. Ligands include substrates, inhibitors, activators, and neurotransmitters. The rate of binding is called affinity, and this measurement typifies a tendency or strength of the effect. Binding affinity is actualized not only by host-guest interactions, but also by solvent effects that can play a dominant, steric role which drives non-covalent binding in solution.[3] The solvent provides a chemical environment for the ligand and receptor to adapt, and thus accept or reject each other as partners.
Radioligands are radioisotope labeled compounds are used in vivo as tracers in PET studies and for in vitro binding studies.
The interaction of most ligands with their binding sites can be characterized in terms of a binding affinity. In general, high-affinity ligand binding results from greater intermolecular force between the ligand and its receptor while low-affinity ligand binding involves less intermolecular force between the ligand and its receptor. In general, high-affinity binding results in a higher degree of occupancy for the ligand at its receptor binding site than is the case for low-affinity binding; the residence time (lifetime of the receptor-ligand complex) does not correlate. High-affinity binding of ligands to receptors is often physiologically important when some of the binding energy can be used to cause a conformational change in the receptor, resulting in altered behavior of an associated ion channel or enzyme.
A ligand that can bind to a receptor, alter the function of the receptor, and trigger a physiological response is called an agonist for that receptor. Agonist binding to a receptor can be characterized both in terms of how much physiological response can be triggered and in terms of the concentration of the agonist that is required to produce the physiological response. High-affinity ligand binding implies that a relatively low concentration of a ligand is adequate to maximally occupy a ligand-binding site and trigger a physiological response. The lower the Ki concentration is, the more likely there will be a chemical reaction between the pending ion and the receptive antigen. Low-affinity binding (high Ki level) implies that a relatively high concentration of a ligand is required before the binding site is maximally occupied and the maximum physiological response to the ligand is achieved. In the example shown to the right, two different ligands bind to the same receptor binding site. Only one of the agonists shown can maximally stimulate the receptor and, thus, can be defined as a full agonist. An agonist that can only partially activate the physiological response is called a partial agonist. In this example, the concentration at which the full agonist (red curve) can half-maximally activate the receptor is about 5 x 109Molar (nM = nanomolar). Ligands that bind to a receptor but fail to activate the physiological response are receptor antagonists.
In the example shown to the left, ligand-binding curves are shown for two ligands with different binding affinities. Ligand binding is often characterized in terms of the concentration of ligand at which half of the receptor binding sites are occupied, known as the IC50, which is related to but different from the dissociation constant. The ligand illustrated by the red curve has a higher binding affinity and smaller Kd than the ligand illustrated by the green curve. If these two ligands were present at the same time, more of the higher-affinity ligand would be bound to the available receptor binding sites. This is how carbon monoxide can compete with oxygen in binding to hemoglobin, resulting in carbon monoxide poisoning.
Binding affinity is most commonly determined using a radiolabeled ligand, known as a tagged ligand. Homologous competitive binding experiments involve binding competition between a tagged ligand and an untagged ligand.[4] Non-labelled methods such as surface plasmon resonance, dual polarization interferometry and Multi-Parametric Surface Plasmon Resonance (MP-SPR) can not only quantify the affinity from concentration based assays; but also from the kinetics of association and dissociation, and in the later cases, the conformational change induced upon binding. MP-SPR also enables measurements in high saline dissociation buffers thanks to a unique optical setup. Microscale Thermophoresis (MST), an immobilization-free method[5] was developed. This method allows the determination of the binding affinity without any limitation to the ligand's molecular weight.[6]
For the use of statistical mechanics in a quantitative study of the ligand-receptor binding affinity, see the comprehensive article[7] on the configurational partition function.
Binding affinity data alone does not determine the overall potency of a drug. Potency is a result of the complex interplay of both the binding affinity and the ligand efficacy. Ligand efficacy refers to the ability of the ligand to produce a biological response upon binding to the target receptor and the quantitative magnitude of this response. This response may be as an agonist, antagonist, or inverse agonist, depending on the physiological response produced.[8]
Selective ligands have a tendency to bind to very limited kinds of receptor, whereas non-selective ligands bind to several types of receptors. This plays an important role in pharmacology, where drugs that are non-selective tend to have more adverse effects, because they bind to several other receptors in addition to the one generating the desired effect.
Bivalent ligands consist of two drug-like molecules (pharmacophores or ligands) connected by an inert linker. There are various kinds of bivalent ligands and are often classified based on what the pharmacophores target. Homobivalent ligands target two of the same receptor types. Heterobivalent ligands target two different receptor types. Bitopic ligands target an orthosteric binding sites and allosteric binding sites on the same receptor.
In scientific research, bivalent ligands have been used to study receptor dimers and to investigate their properties. This class of ligands was pioneered by Philip S. Portoghese and coworkers while studying the opioid receptor system.[9][10][11] Bivalent ligands were also reported early on by Micheal Conn and coworkers for the gonadotropin-releasing hormone receptor.[12][13] Since these early reports, there have been many bivalent ligands reported for various GPCR systems including cannabinoid,[14] serotonin,[15][16] oxytocin,[17] and melanocortin receptor systems.[18][19][20]
Bivalent ligands usually tend to be larger than their monovalent counterparts, and therefore, not drug-like. (See Lipinskis rule of five.) Many believe this limits their applicability in clinical settings.[21][22] In spite of these beliefs, their have been many ligands that have reported successful per-clinical animal studies.[19][23][24][25][26][27] Given that some bivalent ligands can have many advantages compared to their monovalent counterparts (such as tissue selectivity, increased binding affinity, and increased potency or efficacy), bivalents may offer some clinical advantages as well.
A privileged scaffold[28] is a molecular framework or chemical moiety that is statistically recurrent among known drugs or among a specific array of biologically active compounds. These privileged elements[29] can be used as a basis for designing new active biological compounds or compound libraries.
Main methods to study proteinligand interactions are principal hydrodynamic and calorimetric techniques, and principal spectroscopic and structural methods such as
Other techniques include: fluorescence intensity, bimolecular fluorescence complementation, FRET (fluorescent resonance energy transfer) / FRET quenching surface plasmon resonance, bio-layer interferometry, Coimmunopreciptation indirect ELIS, equilibrium dialysis, gel electrophoresis, far western blot, fluorescence polarization anisotropy, electron paramagnetic resonance, microscale thermophoresis
The dramatically increased computing power of supercomputers and personal computers has made it possible to study proteinligand interactions also by means of computational chemistry. For example, a worldwide grid of well over a million ordinary PCs was harnessed for cancer research in the project grid.org, which ended in April 2007. Grid.org has been succeeded by similar projects such as World Community Grid, Human Proteome Folding Project, Compute Against Cancer and Folding@Home.
See the original post here:
Ligand (biochemistry) - Wikipedia
- CU Boulder Biochemistry Professor Xuedong Liu Recognized as an elite member of the 2024 Class of Fellows by the National Academy of Investors (NAI) -... - December 23rd, 2024 [December 23rd, 2024]
- ACBICON 2024 Shines Bright: Celebrating 50 Years of Excellence in Clinical Biochemistry - :: India News Calling :: - December 9th, 2024 [December 9th, 2024]
- Teen achiever eyes global impact in medicine and biochemistry - Jamaica Gleaner - December 9th, 2024 [December 9th, 2024]
- Biochemistry senior connects with community through service organizations - University of South Carolina - November 28th, 2024 [November 28th, 2024]
- 2025 Summer Intern - Peptide Therapeutics, Early Discovery Biochemistry - Genentech - November 28th, 2024 [November 28th, 2024]
- Postdoctoral Position in Structural Biology/Biochemistry - Helsinki, Finland job with UNIVERSITY OF HELSINKI | 384233 - Times Higher Education - November 28th, 2024 [November 28th, 2024]
- Neugebauer named Rose Professor of Molecular Biophysics and Biochemistry - Yale News - November 28th, 2024 [November 28th, 2024]
- Scholarship has Timmins biochemistry student hopeful for the future - TimminsToday - November 20th, 2024 [November 20th, 2024]
- Lu Bai named Verne M. Willaman Professor of Biochemistry and Molecular Biology - Penn State University - November 12th, 2024 [November 12th, 2024]
- Biochemistry and biotechnology major Jay King nearing graduation with plans to pursue PhD in oncologic research - UMSL Daily - November 12th, 2024 [November 12th, 2024]
- A Biochemistry Teaching Experiment That Demonstrates the Digestion of Carbohydrates, Proteins, and Lipids in the Digestive Tract - ACS Publications - November 12th, 2024 [November 12th, 2024]
- SBU Biochemistry alumnus to discuss how plants defend themselves against bacterial pathogens - St. Bonaventure - October 13th, 2024 [October 13th, 2024]
- Exploring the Frontiers of Metabolic Research in Cancer: An Interview with Dr. Alice Chang, B. Pharm., Ph.D. at China Medical University, Institute of... - October 2nd, 2024 [October 2nd, 2024]
- The Hidden Biochemistry of Cold Temperatures: Chilling RNA Discovery Reshapes the Rules of Life - SciTechDaily - September 23rd, 2024 [September 23rd, 2024]
- New sweatband keeps tabs on body biochemistry - The Naked Scientists - September 15th, 2024 [September 15th, 2024]
- Celebrating 25 years of innovation at the department of biochemistry & medical genetics - UM Today - September 15th, 2024 [September 15th, 2024]
- Vinesh Phogat versus the perplexing biochemistry of losing weight - The Hindu - September 2nd, 2024 [September 2nd, 2024]
- Girirajan named head of the Department of Biochemistry and Molecular Biology - Penn State University - July 26th, 2024 [July 26th, 2024]
- Scientists uncover a multibillion-year epic written into the chemistry of life - EurekAlert - June 1st, 2024 [June 1st, 2024]
- Electrolyte and Biochemistry Analyzers Market Is Likely to Experience a Tremendous Growth by 2031 - openPR - June 1st, 2024 [June 1st, 2024]
- Scientists uncover missing link in the Chemistry of Life - Tech Explorist - June 1st, 2024 [June 1st, 2024]
- From negative results to new discoveries in chloroplast biochemistry - Phys.org - April 15th, 2024 [April 15th, 2024]
- Protecting art and passwords with biochemistry - Tech Xplore - April 15th, 2024 [April 15th, 2024]
- 'Always more to discover:' Clarke biochemistry professor shares love of the Bard through Dubuque Shakespeare Project - telegraphherald.com - April 15th, 2024 [April 15th, 2024]
- American Society of Biochemistry and Molecular Biology honors MD/PhD student Hannah Kondolf - The Daily | Case Western Reserve University - April 7th, 2024 [April 7th, 2024]
- Biochemistry and transcriptomic analyses of Phthorimaea absoluta (Lepidoptera: Gelechiidae) response to insecticides ... - Nature.com - April 7th, 2024 [April 7th, 2024]
- Differential responses of Hollyhock (Alcea rosea L.) varieties to salt stress in relation to physiological and biochemical ... - Nature.com - April 7th, 2024 [April 7th, 2024]
- Life's Origins: How Fissures in Hot Rocks May Have Kickstarted Biochemistry - Singularity Hub - April 7th, 2024 [April 7th, 2024]
- Professor Robert Cross awarded Biochemical Society Award for Sustained Excellence - University of Warwick - April 7th, 2024 [April 7th, 2024]
- Study suggests that estrogen may drive nicotine addiction in women - EurekAlert - March 29th, 2024 [March 29th, 2024]
- Yale men's basketball confused for university's Molecular Biophysics and Biochemistry on Twitter - Sporting News - March 29th, 2024 [March 29th, 2024]
- Plants have an astonishing biochemical communication network - Earth.com - March 29th, 2024 [March 29th, 2024]
- Study links long-term consumption of deep-fried oil with increased neurodegeneration - ASBMB Today - March 29th, 2024 [March 29th, 2024]
- New surfactant could improve lung treatments for premature babies - ASBMB Today - March 29th, 2024 [March 29th, 2024]
- The Power and Promise of RNA - Duke University School of Medicine - March 29th, 2024 [March 29th, 2024]
- Commonwealth University biochemistry and pre-medicine concentrations accredited - Lock Haven Express - February 13th, 2024 [February 13th, 2024]
- Afternoon of Science Series: Department of Biochemistry & Molecular Biophysics - Columbia University Irving Medical Center - February 13th, 2024 [February 13th, 2024]
- What Casual Sex, Pigeon Relationships, Bioluminescence and a Drug for Broken Hearts can Tell us About the ... - Nautilus - February 13th, 2024 [February 13th, 2024]
- $2.4 Million in Funding Awarded to Chemistry and Biochemistry Faculty | CSUF News - CSUF News - February 13th, 2024 [February 13th, 2024]
- Associate Professor in Biochemistry and Director of NIH-Funded COBRE job with UNIVERSITY OF NEW HAMPSHIRE ... - Nature.com - February 13th, 2024 [February 13th, 2024]
- USM Chemistry (Biochemistry Emphasis) Degree Earns ASBMB Reaccreditation - The University of Southern Mississippi - February 4th, 2024 [February 4th, 2024]
- AI generates proteins with exceptional binding strength - ASBMB Today - February 4th, 2024 [February 4th, 2024]
- A safe place where biochemistry is valued - ASBMB Today - October 27th, 2023 [October 27th, 2023]
- Chair (W3) of Biochemistry job with TECHNISCHE UNIVERSITAT ... - Times Higher Education - October 27th, 2023 [October 27th, 2023]
- The Biochemistry of Muscle Contraction - Discovery Institute - October 27th, 2023 [October 27th, 2023]
- Department of Biochemistry and Molecular Biology chair and ... - University of Iowa Health Care - October 27th, 2023 [October 27th, 2023]
- Two decorated Brandeis faculty awarded National Medal of Science ... - Brandeis University - October 27th, 2023 [October 27th, 2023]
- Research Assistant / Associate (Department of Biochemistry) job ... - Times Higher Education - October 27th, 2023 [October 27th, 2023]
- ASBMB weighs in on policy changes for dual-use research - ASBMB Today - October 27th, 2023 [October 27th, 2023]
- In the Locker Room with Katie Austin, Mia Brito, and Alaina Di Dio ... - The Oberlin Review - October 27th, 2023 [October 27th, 2023]
- Dr. Tara Schwetz named NIH Deputy Director for Program ... - National Institutes of Health (.gov) - October 27th, 2023 [October 27th, 2023]
- Armstrong Welcomes Burning Swamp The George-Anne Media ... - The George-Anne - October 27th, 2023 [October 27th, 2023]
- Summer Research Projects Grow Depth of Knowledge - Taylor University - October 27th, 2023 [October 27th, 2023]
- Brookings Register | Speakout: Decarbonize industry with nuclear ... - Brookings Register - October 27th, 2023 [October 27th, 2023]
- Professor Yong Sik Ok becomes the first Korean President of the ... - EurekAlert - October 27th, 2023 [October 27th, 2023]
- Partnership between UCR and City of Hope aims to increase ... - UC Riverside - October 27th, 2023 [October 27th, 2023]
- The seeds have been planted: The beautification of Ernst Nature ... - Miami Student - October 27th, 2023 [October 27th, 2023]
- Biochemist selected as Innovation Fund investigator by Pew ... - Pennsylvania State University - October 27th, 2023 [October 27th, 2023]
- UTHealth Houston researchers awarded $3.4M NIH grant to study ... - EurekAlert - October 27th, 2023 [October 27th, 2023]
- Centre professor, students working toward rapid, affordable ... - Danville Advocate - October 27th, 2023 [October 27th, 2023]
- SUNY Potsdam faculty want to keep 13 of 14 programs eyed for cuts ... - The Adirondack Daily Enterprise - October 27th, 2023 [October 27th, 2023]
- Fall Awards recognize long years of service to UWM - University of WisconsinMilwaukee - October 27th, 2023 [October 27th, 2023]
- Shobade selected for inaugural innovation in agriculture award - College of Agriculture and Life Sciences - April 8th, 2023 [April 8th, 2023]
- Three juniors selected as Goldwater Scholars - The Source ... - Washington University in St. Louis - April 8th, 2023 [April 8th, 2023]
- Senior Awarded Fulbright to Germany Susquehanna University - Susquehanna University - April 8th, 2023 [April 8th, 2023]
- CI MED Students Win Top Honors At Startup Showcase at ... - Carle Illinois College of Medicine - April 8th, 2023 [April 8th, 2023]
- Gregory Bowman: Penn Integrates Knowledge University Professor ... - University of Pennsylvania - April 8th, 2023 [April 8th, 2023]
- The Columns W&L's Jaden Keuhner '24 Featured in WSLS 10 ... - The Columns - April 8th, 2023 [April 8th, 2023]
- New anticancer agent activated by ultrasound waves does not have strong side effects - News-Medical.Net - April 8th, 2023 [April 8th, 2023]
- Obituary for Alison Lynn Smoot-Pierce, Conway, SC - Arkansas Online - April 8th, 2023 [April 8th, 2023]
- Finding a way to combat long COVID - EurekAlert - April 8th, 2023 [April 8th, 2023]
- High schoolers awarded for action research | Sioux Center News - nwestiowa.com - April 8th, 2023 [April 8th, 2023]
- Emory researchers discover key pathway for COVID-19 organ ... - Emory News Center - April 8th, 2023 [April 8th, 2023]
- Auburn chemistry graduate student shines as only Southeastern ... - Office of Communications and Marketing - April 8th, 2023 [April 8th, 2023]
- Study uncovers aspect of how muscular dystrophies progress - ASBMB Today - April 8th, 2023 [April 8th, 2023]
- Broccoli intake protects the small intestine lining, inhibits development of disease - News-Medical.Net - April 8th, 2023 [April 8th, 2023]
- The Greek who gave $600 million to education - Kathimerini English Edition - April 8th, 2023 [April 8th, 2023]
- Man linked to firebombing of Wisconsin anti-abortion group via leftover burrito - Yahoo News - April 8th, 2023 [April 8th, 2023]
- Important enzyme for the composition of the gut microbiome discovered - Phys.org - April 8th, 2023 [April 8th, 2023]
- Unraveling the protein map of cell's powerhouse - ASBMB Today - April 8th, 2023 [April 8th, 2023]