Biochemistry


Ontology type: npg:Subject  | skos:Concept     


Concept Info

NAME

Biochemistry

DESCRIPTION

Biochemistry is the study of the structure and function of biological molecules such as proteins, nucleic acids, carbohydrates and lipids. Biochemistry is also used to describe techniques suited to understanding the interactions and functions of biological molecules, including traditional techniques such as Western blotting, co-immunoprecipitation, and chromatography methods.

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Download the RDF metadata as:  json-ld nt turtle xml License info

HOW TO GET THIS DATA PROGRAMMATICALLY:

JSON-LD is a popular format for linked data which is fully compatible with JSON.

curl -H 'Accept: application/ld+json' 'https://scigraph.springernature.com/ontologies/subjects/biochemistry'

N-Triples is a line-based linked data format ideal for batch operations.

curl -H 'Accept: application/n-triples' 'https://scigraph.springernature.com/ontologies/subjects/biochemistry'

Turtle is a human-readable linked data format.

curl -H 'Accept: text/turtle' 'https://scigraph.springernature.com/ontologies/subjects/biochemistry'

RDF/XML is a standard XML format for linked data.

curl -H 'Accept: application/rdf+xml' 'https://scigraph.springernature.com/ontologies/subjects/biochemistry'


 

This table displays all metadata directly associated to this object as RDF triples.

651 TRIPLES      10 PREDICATES      44 URIs      5 LITERALS

Subject Predicate Object
1 sg:ontologies/subjects/biochemistry sgo:license sg:explorer/license/
2 sgo:sdDataset onto_subjects
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9 skos:definition Biochemistry is the study of the structure and function of biological molecules such as proteins, nucleic acids, carbohydrates and lipids. Biochemistry is also used to describe techniques suited to understanding the interactions and functions of biological molecules, including traditional techniques such as Western blotting, co-immunoprecipitation, and chromatography methods.
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44 sg:ontologies/subjects/ dcterms:description The Nature Subjects Taxonomy is a polyhierarchical categorization of scholarly subject areas which are used for the indexing of content by Springer Nature.
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144 skos:definition Biophysical chemistry is the study of the physical properties of biological macromolecules at either a chemical sequence level or a more global structural level. Biophysical chemistry is also used to describe techniques suited to understanding the physical properties of biological molecules at a chemical level, including nuclear magnetic resonance (NMR) spectroscopy and X-ray crystallography.
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155 skos:definition Carbohydrates (also known as sugars) are molecules consisting of a basic unit, usually a six-membered ring, containing carbon and oxygen, either alone (monosaccharides) or joined together (disaccharides, oligosaccharides, or polysaccharides). They have various biological functions, including energy storage, protein modification and regulation, and act as structural components of cell membranes.
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277 sg:ontologies/subjects/isoenzymes
278 sg:ontologies/subjects/isomerases
279 sg:ontologies/subjects/kinases
280 sg:ontologies/subjects/ligases
281 sg:ontologies/subjects/multienzyme-complexes
282 sg:ontologies/subjects/oxidoreductases
283 sg:ontologies/subjects/penicillin-binding-proteins
284 sg:ontologies/subjects/proteases
285 sg:ontologies/subjects/recombinases
286 sg:ontologies/subjects/transferases
287 skos:prefLabel Enzymes
288 sg:ontologies/subjects/glycobiology sgo:sdDataset onto_subjects
289 rdf:type npg:Subject
290 skos:Concept
291 rdfs:label Glycobiology
292 skos:altLabel Glycomic
293 Glycomics
294 skos:broader sg:ontologies/subjects/biochemistry
295 sg:ontologies/subjects/cell-biology
296 sg:ontologies/subjects/chemical-biology
297 skos:definition Glycobiology is the study of the structure, biosynthesis and biological functions of carbohydrates.
298 skos:inScheme sg:ontologies/subjects/
299 skos:prefLabel Glycobiology
300 sg:ontologies/subjects/glycomics sgo:sdDataset onto_subjects
301 rdf:type npg:Subject
302 skos:Concept
303 rdfs:label Glycomics
304 skos:altLabel Glycobiology
305 Glycomic
306 skos:broader sg:ontologies/subjects/biochemistry
307 sg:ontologies/subjects/chemical-biology
308 skos:definition Glycomics is a subset of the field of glycobiology that aims to identify the structure and function of the complete set of glycans (the glycome) produced in a given cell or organism and identify all the genes that encode glycoproteins.
309 skos:inScheme sg:ontologies/subjects/
310 skos:prefLabel Glycomics
311 sg:ontologies/subjects/histocytochemistry sgo:sdDataset onto_subjects
312 rdf:type npg:Subject
313 skos:Concept
314 rdfs:label Histocytochemistry
315 skos:altLabel Cytochemistry
316 skos:broader sg:ontologies/subjects/biochemistry
317 skos:definition Histocytochemistry describes a collection of chemical techniques used to visualize biological structures, small molecules, metabolic activities and proteins within cellular tissues. These techniques include staining reactions, radioactive isotope uptake, and selective chemisorption of supported metals in electron microscopy.
318 skos:inScheme sg:ontologies/subjects/
319 skos:narrower sg:ontologies/subjects/immunohistochemistry
320 skos:prefLabel Histocytochemistry
321 sg:ontologies/subjects/hormones sgo:sdDataset onto_subjects
322 rdf:type npg:Subject
323 skos:Concept
324 rdfs:label Hormones
325 skos:altLabel Hormone
326 skos:broader sg:ontologies/subjects/biochemistry
327 skos:definition Hormones are small molecules or peptides that act in signalling between one cell or cell set and another. They are generally involved in high-level processes of an organism such as growth, reproduction, and digestion; examples include adrenal complex hormones, gonadal hormones and gastrointestinal hormones, respectively. Hormones can be paracrine, endocrine or autocrine factors.
328 skos:inScheme sg:ontologies/subjects/
329 skos:narrower sg:ontologies/subjects/adrenal-cortex-hormones
330 sg:ontologies/subjects/aldosterone
331 sg:ontologies/subjects/calcitonin
332 sg:ontologies/subjects/ectopic-hormones
333 sg:ontologies/subjects/gastrointestinal-hormones
334 sg:ontologies/subjects/gonadal-hormones
335 sg:ontologies/subjects/insect-hormones
336 sg:ontologies/subjects/melatonin
337 sg:ontologies/subjects/parathyroid-hormone
338 sg:ontologies/subjects/peptide-hormones
339 sg:ontologies/subjects/steroid-hormones
340 sg:ontologies/subjects/thymus-hormones
341 sg:ontologies/subjects/thyroid-hormones
342 skos:prefLabel Hormones
343 sg:ontologies/subjects/immunochemistry sgo:sdDataset onto_subjects
344 rdf:type npg:Subject
345 skos:Concept
346 rdfs:label Immunochemistry
347 skos:broader sg:ontologies/subjects/biochemistry
348 skos:definition Immunochemistry is the study of the identities and functions of the components of the immune system. Immunochemistry is also used to describe the application of immune system components, in particular antibodies, to chemically labelled antigen molecules for visualization.
349 skos:inScheme sg:ontologies/subjects/
350 skos:prefLabel Immunochemistry
351 sg:ontologies/subjects/ion-channels sgo:sdDataset onto_subjects
352 rdf:type npg:Subject
353 skos:Concept
354 rdfs:label Ion channels
355 skos:altLabel Ion Channel
356 Ionic Channel
357 Ionic Channels
358 Membrane Channel
359 Membrane Channels
360 skos:broader sg:ontologies/subjects/biochemistry
361 sg:ontologies/subjects/chemical-biology
362 skos:definition Ion channels are integral membrane protein assemblies that modulate the flow of ions into and out of a cell or organelle, leading to generation of electrical signals. Opening (gating) of ion channels can occur upon stimulation with ligands such as second messengers, voltage, temperature and mechanical stress. The directionality of channels is dictated by the electrochemical gradient.
363 skos:inScheme sg:ontologies/subjects/
364 skos:narrower sg:ontologies/subjects/calcium-channels
365 sg:ontologies/subjects/chloride-channels
366 sg:ontologies/subjects/cyclic-nucleotide-gated-cation-channels
367 sg:ontologies/subjects/ligand-gated-ion-channels
368 sg:ontologies/subjects/porins
369 sg:ontologies/subjects/potassium-channels
370 sg:ontologies/subjects/sodium-channels
371 sg:ontologies/subjects/transient-receptor-potential-channels
372 skos:prefLabel Ion channels
373 sg:ontologies/subjects/isoenzymes sgo:sdDataset onto_subjects
374 rdf:type npg:Subject
375 skos:Concept
376 rdfs:label Isoenzymes
377 skos:altLabel Alloenzymes
378 Allozymes
379 Isozymes
380 skos:broader sg:ontologies/subjects/biochemistry
381 sg:ontologies/subjects/enzymes
382 skos:definition Isoenzymes are closely related variants of the same enzyme – so with the same catalytic function, but with different amino acid sequences due to being encoded by different alleles of the same gene. Isoenzymes generally differ in their kinetic and/or thermodynamic properties.
383 skos:inScheme sg:ontologies/subjects/
384 skos:prefLabel Isoenzymes
385 sg:ontologies/subjects/kinases sgo:sdDataset onto_subjects
386 rdf:type npg:Subject
387 skos:Concept
388 rdfs:label Kinases
389 skos:altLabel ATP Phosphotransferases
390 Kinase
391 Phosphotransferases
392 Transphosphorylases
393 skos:broader sg:ontologies/subjects/biochemistry
394 sg:ontologies/subjects/chemical-biology
395 sg:ontologies/subjects/enzymes
396 skos:definition Kinases are enzymes that catalyze the addition of a phosphate group (PO43−) to substrates, usually proteins. The phosphate generally comes from adenosine triphosphate (ATP). Kinases and phosphatases, which remove phosphate groups, are involved in nearly all signal transduction processes, often with cascades of phosphorylation events.
397 skos:inScheme sg:ontologies/subjects/
398 skos:prefLabel Kinases
399 sg:ontologies/subjects/lipidomics sgo:sdDataset onto_subjects
400 rdf:type npg:Subject
401 skos:Concept
402 rdfs:label Lipidomics
403 skos:broader sg:ontologies/subjects/biochemistry
404 sg:ontologies/subjects/chemical-biology
405 skos:definition Lipidomics is the study of the structure and function of the complete set of lipids (the lipidome) produced in a given cell or organism as well as their interactions with other lipids, proteins and metabolites.
406 skos:inScheme sg:ontologies/subjects/
407 skos:prefLabel Lipidomics
408 sg:ontologies/subjects/lipids sgo:sdDataset onto_subjects
409 rdf:type npg:Subject
410 skos:Concept
411 rdfs:label Lipids
412 skos:broader sg:ontologies/subjects/biochemistry
413 sg:ontologies/subjects/chemical-biology
414 skos:definition Lipids are hydrophobic or amphiphilic small molecules that include sterols, waxes, fatty acids and phospholipids, and are insoluble in water and soluble in organic solvent. Biological lipids are generated from ketoacyl and isoprene (CH2=C(CH3)CH=CH2) groups and include glycerolipids, sphingolipids, fatty acids and polyketides. Lipids play roles in energy storage, signalling and as structural components.
415 skos:inScheme sg:ontologies/subjects/
416 skos:narrower sg:ontologies/subjects/ceroid
417 sg:ontologies/subjects/fats
418 sg:ontologies/subjects/fatty-acids
419 sg:ontologies/subjects/fatty-alcohols
420 sg:ontologies/subjects/glycerides
421 sg:ontologies/subjects/glycolipids
422 sg:ontologies/subjects/lipid-peroxides
423 sg:ontologies/subjects/lipofuscin
424 sg:ontologies/subjects/lipopeptides
425 sg:ontologies/subjects/lipopolysaccharides
426 sg:ontologies/subjects/lipoproteins
427 sg:ontologies/subjects/membrane-lipids
428 sg:ontologies/subjects/oils
429 sg:ontologies/subjects/phospholipids
430 sg:ontologies/subjects/polyhydroxyalkanoates
431 sg:ontologies/subjects/sphingolipids
432 sg:ontologies/subjects/sterols
433 sg:ontologies/subjects/waxes
434 skos:prefLabel Lipids
435 sg:ontologies/subjects/metabolomics sgo:sdDataset onto_subjects
436 rdf:type npg:Subject
437 skos:Concept
438 rdfs:label Metabolomics
439 skos:altLabel Metabolomic
440 Metabonomic
441 Metabonomics
442 skos:broader sg:ontologies/subjects/biochemistry
443 sg:ontologies/subjects/biological-techniques
444 sg:ontologies/subjects/biotechnology
445 sg:ontologies/subjects/chemical-biology
446 sg:ontologies/subjects/metabolism
447 skos:definition Metabolomics refers to the systematic identification and quantification of the small molecule metabolic products (the metabolome) of a biological system (cell, tissue, organ, biological fluid, or organism) at a specific point in time. Mass spectrometry and NMR spectroscopy are the techniques most often used for metabolome profiling.
448 skos:inScheme sg:ontologies/subjects/
449 skos:prefLabel Metabolomics
450 sg:ontologies/subjects/metals sgo:sdDataset onto_subjects
451 rdf:type npg:Subject
452 skos:Concept
453 rdfs:label Metals
454 skos:broader sg:ontologies/subjects/biochemistry
455 sg:ontologies/subjects/chemical-biology
456 skos:definition Metals are electropositive chemical elements, and as such have a propensity to form cations, which they are found as – often bound in metalloproteins – in living systems. Many metals play important roles in living systems; for instance sodium and potassium, which are important for maintaining osmotic equilibrium, as well as calcium, magnesium, iron and copper.
457 skos:inScheme sg:ontologies/subjects/
458 skos:narrower sg:ontologies/subjects/calcium
459 sg:ontologies/subjects/iron
460 sg:ontologies/subjects/magnesium
461 sg:ontologies/subjects/potassium
462 sg:ontologies/subjects/sodium
463 skos:prefLabel Metals
464 sg:ontologies/subjects/neurochemistry sgo:sdDataset onto_subjects
465 rdf:type npg:Subject
466 skos:Concept
467 rdfs:label Neurochemistry
468 skos:altLabel Neurochemistries
469 skos:broader sg:ontologies/subjects/biochemistry
470 skos:definition Neurochemistry is the study of the identities, structures and functions of compounds (neurochemicals) that are generated by and that modulate the nervous system. Neurochemicals include oxytocin, serotonin, dopamine and other neurotransmitters and neurotransmitter-regulating substances.
471 skos:inScheme sg:ontologies/subjects/
472 skos:prefLabel Neurochemistry
473 sg:ontologies/subjects/peptides sgo:sdDataset onto_subjects
474 rdf:type npg:Subject
475 skos:Concept
476 rdfs:label Peptides
477 skos:altLabel Polypeptides
478 skos:broader sg:ontologies/subjects/biochemistry
479 sg:ontologies/subjects/chemical-biology
480 skos:definition Peptides are amino acid polymers. They are generally much smaller than proteins and don’t have sufficient activity on their own – they generally represent a small portion of a full protein. They may also be signalling molecules that act through interaction with specific receptors, as in peptide hormones and cytokines.
481 skos:inScheme sg:ontologies/subjects/
482 skos:prefLabel Peptides
483 sg:ontologies/subjects/prions sgo:sdDataset onto_subjects
484 rdf:type npg:Subject
485 skos:Concept
486 rdfs:label Prions
487 skos:altLabel Mink Encephalopathy Virus
488 PrP Proteins
489 Prion Proteins
490 Scrapie
491 Scrapie protein
492 Scrapie proteins
493 skos:broader sg:ontologies/subjects/biochemistry
494 sg:ontologies/subjects/protein-folding
495 skos:definition Prions are an infectious protein usually referring to the protein in mammals called prion (PrP), but the term prions or scrapie protein can be generically applied to any protein that exhibits the same properties of taking on a misfolded conformation (PrPsc form) and templating and propagating further misfolding that leads to its infectivity.
496 skos:inScheme sg:ontologies/subjects/
497 skos:prefLabel Prions
498 sg:ontologies/subjects/proteases sgo:sdDataset onto_subjects
499 rdf:type npg:Subject
500 skos:Concept
501 rdfs:label Proteases
502 skos:altLabel Esteroproteases
503 Peptidases
504 Peptide Hydrolases
505 Proteinases
506 Proteolytic Enzymes
507 skos:broader sg:ontologies/subjects/biochemistry
508 sg:ontologies/subjects/chemical-biology
509 sg:ontologies/subjects/enzymes
510 skos:definition Proteases are enzymes that catalyse hydrolysis of the peptide and isopeptide bonds that join amino acids within proteins (known as proteolysis). Proteases can also remove protein post-translational modifications. Exopeptidases remove the terminal amino acids from the protein chain and endopeptidases attack an internal peptide bond, as in trypsin, chymotrypsin, pepsin, elastase and papain.
511 skos:inScheme sg:ontologies/subjects/
512 skos:prefLabel Proteases
513 sg:ontologies/subjects/protein-folding sgo:sdDataset onto_subjects
514 rdf:type npg:Subject
515 skos:Concept
516 rdfs:label Protein folding
517 skos:altLabel Globular Protein Folding
518 Globular Protein Foldings
519 Protein Foldings
520 skos:broader sg:ontologies/subjects/biochemistry
521 sg:ontologies/subjects/cell-biology
522 sg:ontologies/subjects/chemical-biology
523 sg:ontologies/subjects/computational-biology-and-bioinformatics
524 sg:ontologies/subjects/molecular-biology
525 skos:definition Protein folding is the process by which proteins achieve their mature functional (native) tertiary structure, and often begins co-translationally. Protein folding requires chaperones and often involves stepwise establishment of regular secondary and supersecondary structures, namely α-helices and β-sheets, that fold rapidly, stabilized by hydrogen bonding and disulphide bridges, and then tertiary structure.
526 skos:inScheme sg:ontologies/subjects/
527 skos:narrower sg:ontologies/subjects/chaperones
528 sg:ontologies/subjects/endoplasmic-reticulum
529 sg:ontologies/subjects/prions
530 sg:ontologies/subjects/protein-aggregation
531 skos:prefLabel Protein folding
532 sg:ontologies/subjects/proteins sgo:sdDataset onto_subjects
533 rdf:type npg:Subject
534 skos:Concept
535 rdfs:label Proteins
536 skos:altLabel Gene Proteins
537 Protein
538 Protein Gene Products
539 skos:broader sg:ontologies/subjects/biochemistry
540 sg:ontologies/subjects/chemical-biology
541 skos:definition Proteins are biopolymers of amino acids (polypeptides), joined by peptide bonds, that are generated by ribosomes. The amino acid sequence, encoded by its gene, determines a protein’s structure and function. Newly synthesized proteins can be modified by post-translational modification, altering its protein folding, stability and activity. Proteins often associate into protein–protein interaction networks for function.
542 skos:inScheme sg:ontologies/subjects/
543 skos:narrower sg:ontologies/subjects/acetyltransferases
544 sg:ontologies/subjects/blood-proteins
545 sg:ontologies/subjects/carrier-proteins
546 sg:ontologies/subjects/cell-cycle-proteins
547 sg:ontologies/subjects/cerebrospinal-fluid-proteins
548 sg:ontologies/subjects/chaperones
549 sg:ontologies/subjects/chromatin
550 sg:ontologies/subjects/circadian-rhythm-signalling-peptides-and-proteins
551 sg:ontologies/subjects/colipases
552 sg:ontologies/subjects/complement
553 sg:ontologies/subjects/contractile-proteins
554 sg:ontologies/subjects/cytoskeletal-proteins
555 sg:ontologies/subjects/dna-binding-proteins
556 sg:ontologies/subjects/g-protein-coupled-receptors
557 sg:ontologies/subjects/glycoproteins
558 sg:ontologies/subjects/gtp-binding-protein-regulators
559 sg:ontologies/subjects/integrins
560 sg:ontologies/subjects/intracellular-signalling-peptides-and-proteins
561 sg:ontologies/subjects/lectins
562 sg:ontologies/subjects/lipoproteins
563 sg:ontologies/subjects/membrane-proteins
564 sg:ontologies/subjects/metalloproteins
565 sg:ontologies/subjects/methylases
566 sg:ontologies/subjects/mitochondrial-proteins
567 sg:ontologies/subjects/nuclear-receptors
568 sg:ontologies/subjects/nucleases
569 sg:ontologies/subjects/nucleoproteins
570 sg:ontologies/subjects/nucleotide-binding-proteins
571 sg:ontologies/subjects/oncogene-proteins
572 sg:ontologies/subjects/phosphoproteins
573 sg:ontologies/subjects/phosphorylases
574 sg:ontologies/subjects/proteome
575 sg:ontologies/subjects/ribosomal-proteins
576 sg:ontologies/subjects/rna-binding-proteins
577 sg:ontologies/subjects/scleroproteins
578 sg:ontologies/subjects/selenium-binding-proteins
579 sg:ontologies/subjects/sumoylated-proteins
580 sg:ontologies/subjects/thioredoxins
581 sg:ontologies/subjects/transcription-factors
582 sg:ontologies/subjects/tumour-suppressor-proteins
583 sg:ontologies/subjects/ubiquitins
584 sg:ontologies/subjects/ubiquitylated-proteins
585 sg:ontologies/subjects/viral-proteins
586 skos:prefLabel Proteins
587 sg:ontologies/subjects/proteolysis sgo:sdDataset onto_subjects
588 rdf:type npg:Subject
589 skos:Concept
590 rdfs:label Proteolysis
591 skos:broader sg:ontologies/subjects/biochemistry
592 sg:ontologies/subjects/cell-biology
593 sg:ontologies/subjects/molecular-biology
594 skos:definition Proteolysis is the enzymatic process by which proteins are degraded into their component polypeptide or amino acid parts. This generally occurs through protease-mediated hydrolysis of peptide bonds, but can also occur through non-enzymatic methods such as by action of mineral acids and heat.
595 skos:inScheme sg:ontologies/subjects/
596 skos:narrower sg:ontologies/subjects/deubiquitylating-enzymes
597 sg:ontologies/subjects/er-associated-degradation
598 sg:ontologies/subjects/lysosomes
599 sg:ontologies/subjects/neddylation
600 sg:ontologies/subjects/proteasome
601 sg:ontologies/subjects/protein-quality-control
602 sg:ontologies/subjects/sumoylation
603 sg:ontologies/subjects/ubiquitin-ligases
604 sg:ontologies/subjects/ubiquitylation
605 skos:prefLabel Proteolysis
606 sg:ontologies/subjects/proteomics sgo:sdDataset onto_subjects
607 rdf:type npg:Subject
608 skos:Concept
609 rdfs:label Proteomics
610 skos:broader sg:ontologies/subjects/biochemistry
611 sg:ontologies/subjects/biotechnology
612 sg:ontologies/subjects/chemical-biology
613 sg:ontologies/subjects/molecular-biology
614 skos:definition Proteomics refers to the study of proteomes, but is also used to describe the techniques used to determine the entire set of proteins of an organism or system, such as protein purification and mass spectrometry.
615 skos:inScheme sg:ontologies/subjects/
616 skos:narrower sg:ontologies/subjects/protein-protein-interaction-networks
617 skos:prefLabel Proteomics
618 sg:ontologies/subjects/rna sgo:sdDataset onto_subjects
619 rdf:type npg:Subject
620 skos:Concept
621 rdfs:label RNA
622 skos:altLabel Non Polyadenylated RNA
623 Non-Polyadenylated RNA
624 RNA Gene Products
625 Ribonucleic Acid
626 Ribonucleic acids
627 skos:broader sg:ontologies/subjects/biochemistry
628 sg:ontologies/subjects/chemical-biology
629 skos:definition RNA (ribonucleic acid) is a nucleic acid polymer where the carbohydrate is ribose. RNA is generally single-stranded, as DNA is transcribed by RNA polymerases into mRNA (messenger RNA), which is read by ribosomes to generate protein (translation). Biologically active RNAs, including transport, ribosomal and small nuclear RNA (tRNA, rRNA, snRNAs) fold into unique structures guided by complementary pairing between nucleotide bases.
630 skos:inScheme sg:ontologies/subjects/
631 skos:prefLabel RNA
632 sg:ontologies/subjects/structural-biology sgo:sdDataset onto_subjects
633 rdf:type npg:Subject
634 skos:Concept
635 rdfs:label Structural biology
636 skos:broader sg:ontologies/subjects/biochemistry
637 sg:ontologies/subjects/biological-sciences
638 skos:definition Structural biology is the study of the molecular structure and dynamics of biological macromolecules, particularly proteins and nucleic acids, and how alterations in their structures affect their function. Structural biology incorporates the principles of molecular biology, biochemistry and biophysics.
639 skos:inScheme sg:ontologies/subjects/
640 skos:narrower sg:ontologies/subjects/atomic-force-microscopy
641 sg:ontologies/subjects/electron-microscopy
642 sg:ontologies/subjects/molecular-modelling
643 sg:ontologies/subjects/nmr-spectroscopy
644 sg:ontologies/subjects/saxs
645 sg:ontologies/subjects/x-ray-crystallography
646 skos:prefLabel Structural biology
647 skos:Concept sgo:sdDataset for_codes
648 rdf:type rdfs:Class
649 rdfs:Resource
650 rdfs:subClassOf rdfs:Resource
651 skos:Concept
 




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