# Exploring the Multifunctional Roles of Betaine: Traditional Applications, Emerging Technologies, and Green Chemistry Innovations

**Authors:** Yinuo Liu, Qiuxiao Li, Ruijia Liu, Zelong Wang, Shuna Zhao

PMC · DOI: 10.3390/foods15040737 · 2026-02-16

## TL;DR

This paper reviews betaine's diverse roles from traditional uses to new green chemistry applications, highlighting its potential in sustainable materials.

## Contribution

The paper provides a comprehensive overview and bibliometric analysis of betaine's emerging roles in green chemistry and materials science.

## Key findings

- Betaine is being repositioned in green chemistry for applications like deep eutectic solvents and sustainable polymer synthesis.
- A bibliometric analysis reveals a growing focus on industrial ecology and advanced materials research involving betaine.
- The molecule's versatility spans biomedicine, food science, and industrial formulations.

## Abstract

Betaine, a simple natural zwitterion, is currently attracting widespread attention. Although historically labeled as an osmoregulator in agriculture and a methyl donor in animal nutrition, the molecule is now being repositioned at the forefront of green chemistry and materials science due to its unique physicochemical structure. This review critically explores the expanding horizon of betaine applications, bridging the gap between its established biological functions and its emerging roles in recently reported technologies, such as deep eutectic solvents (DESs), cocrystal engineering, and sustainable polymer synthesis. Beyond summarizing its versatile functionality across biomedicine, food science, and industrial formulations, we provide a comprehensive bibliometric analysis to map the evolution of research trends, identifying a clear focus toward industrial ecology and advanced materials. By synthesizing current advancements and discussing potential future directions, this work highlights betaine not merely as a supplement, but as a versatile molecular component with potential applications in sustainable materials and chemical engineering processes.

## Linked entities

- **Chemicals:** betaine (PubChem CID 247)

## Full-text entities

- **Genes:** Nlrp3 (NLR family, pyrin domain containing 3) [NCBI Gene 216799] {aka AGTAVPRL, AII/AVP, Cias1, FCAS, FCU, MWS}, Ythdf1 (YTH N6-methyladenosine RNA binding protein 1) [NCBI Gene 228994] {aka 2210410K23Rik, 8030473O16}, Yy1 (YY1 transcription factor) [NCBI Gene 22632] {aka NF-E1, YY-1}, Il10 (interleukin 10) [NCBI Gene 16153] {aka CSIF, If2a, Il-10}, BHMT (betaine--homocysteine S-methyltransferase) [NCBI Gene 635] {aka BHMT1, HEL-S-61p}, Prdx6-ps2 (peroxiredoxin 6 pseudogene 2) [NCBI Gene 384001] {aka Aop2-rs2, GPx*, Prdx6-rs2}, Tnf (tumor necrosis factor) [NCBI Gene 21926] {aka DIF, TNF-a, TNF-alpha, TNFSF2, TNFalpha, Tnfa}, Mir378a (microRNA 378a) [NCBI Gene 723889] {aka Mir378, Mirn378, mmu-mir-378, mmu-mir-378a}, Casp1 (caspase 1) [NCBI Gene 12362] {aka ICE, Il1bc}, Myh1 (myosin, heavy polypeptide 1, skeletal muscle, adult) [NCBI Gene 17879] {aka A530084A17Rik, IId, IId/x, MHC-2X/D, MHC2X/D, MYHC-IIX}, Vcp (valosin containing protein) [NCBI Gene 269523] {aka 3110001E05, CDC48, p97, p97/VCP}, Mettl21c (methyltransferase 21C, AARS1 lysine) [NCBI Gene 433294] {aka A530098C11Rik}, Akt1 (Akt serine/threonine kinase 1) [NCBI Gene 11651] {aka Akt, LTR-akt, PKB, PKB/Akt, PKBalpha, Rac}, Atg3 (autophagy related 3) [NCBI Gene 67841] {aka 2610016C12Rik, APG3, Apg3l, Atg3l, PC3-96}, Tlr4 (toll-like receptor 4) [NCBI Gene 21898] {aka Lps, Ly87, Ran/M1, Rasl2-8}, Il1b (interleukin 1 beta) [NCBI Gene 16176] {aka IL-1beta, Il-1b}, Nfkb1 (nuclear factor of kappa light polypeptide gene enhancer in B cells 1, p105) [NCBI Gene 18033] {aka NF-KB1, NF-kappaB, NF-kappaB1, p105, p50, p50/p105}, Nfe2l2 (nuclear factor, erythroid derived 2, like 2) [NCBI Gene 18024] {aka Nrf2}, Il18 (interleukin 18) [NCBI Gene 16173] {aka Igif, Il-18}, Il6 (interleukin 6) [NCBI Gene 16193] {aka Il-6}, Irs1 (insulin receptor substrate 1) [NCBI Gene 16367] {aka G972R, IRS-1}, Myd88 (myeloid differentiation primary response gene 88) [NCBI Gene 17874], PRKAB1 (protein kinase AMP-activated non-catalytic subunit beta 1) [NCBI Gene 5564] {aka AMPK, HAMPKb}, Vcam1 (vascular cell adhesion molecule 1) [NCBI Gene 22329] {aka CD106, Vcam-1}, Sts (steroid sulfatase) [NCBI Gene 20905] {aka ArsC}
- **Diseases:** acute liver injury (MESH:D017114), cytotoxicity (MESH:D064420), insulin resistance (MESH:D007333), Cardiovascular Disease (MESH:D002318), retinal inflammation (MESH:D012173), CI (MESH:D023341), colitis (MESH:D003092), hyperglycemic (MESH:D006944), atherosclerosis (MESH:D050197), hippocampal damage (MESH:D000092223), impaired glucose tolerance (MESH:D018149), hepatocellular carcinoma (MESH:D006528), hyperhomocysteinemia (MESH:D020138), Alleviation of Liver Injury (MESH:D017093), T2DM (MESH:D003924), depression (MESH:D003866), chronic pain (MESH:D059350), adiposity (MESH:D018205), atrophy (MESH:D001284), neuroinflammation (MESH:D000090862), NAFLD (MESH:D065626), tumor (MESH:D009369), Muscle (MESH:D019042), skin irritation (MESH:D012871), injury to (MESH:D014947), Inflammatory (MESH:D007249), Amelioration of Muscle Atrophy (MESH:D009133), liver diseases (MESH:D008107), metabolic syndrome (MESH:D024821), cardiotoxicity (MESH:D066126), autoimmune uveitis (MESH:D014605), steatosis (MESH:D005234), GDM (MESH:D016640), obese (MESH:D009765)
- **Chemicals:** lycopsamine (MESH:C018336), fatty acid (MESH:D005227), urea (MESH:D014508), HCY (MESH:D006710), Amino-acid (MESH:D000596), caffeine (MESH:D002110), sodium (MESH:D012964), sulfur amino acid (MESH:D000603), Betaine (MESH:D001622), terpinolene (MESH:C027009), NADES (-), CNFs (MESH:C071110), oxalic acid (MESH:D019815), chlorogenic acid (MESH:D002726), glucose (MESH:D005947), pyrazines (MESH:D011719), flavonoids (MESH:D005419), baicalin (MESH:C038044), SCFA (MESH:D005232), folate (MESH:D005492), neral (MESH:C007076), heavy metal (MESH:D019216), Z (MESH:C000597310), hydrogen (MESH:D006859), cellulose (MESH:D002482), tea tree oil (MESH:D020947), sucrose (MESH:D013395), lipid (MESH:D008055), melanin (MESH:D008543), lignin (MESH:D008031), polyphenol (MESH:D059808), m6A (MESH:C005955), glutathione (MESH:D005978), citric acid (MESH:D019343), ascorbyl glucoside (MESH:C065378), PVA (MESH:C063253), carbon (MESH:D002244), Polymers (MESH:D011108), rutin (MESH:D012431), ethylene (MESH:C036216), hydroxycinnamic acids (MESH:D003373), ammonium (MESH:D064751), polyols (MESH:C024617), choline (MESH:D002794), quercetin (MESH:D011794), salicylic acid (MESH:D020156), rosmarinic acid (MESH:C041376), methionine (MESH:D008715), fat (MESH:D005223), metal (MESH:D008670), silymarin (MESH:D012838), methanol (MESH:D000432), AFB1 (MESH:D016604), Au (MESH:D006046), VOC (MESH:D055549), ethanol (MESH:D000431), thymol (MESH:D013943), resveratrol (MESH:D000077185), Ag (MESH:D012834), ascorbic acid (MESH:D001205)
- **Species:** Melaleuca alternifolia (tea tree, species) [taxon 164405], Rodentia (rodent, order) [taxon 9989], Bifidobacterium (genus) [taxon 1678], Homo sapiens (human, species) [taxon 9606], Aspergillus flavus (species) [taxon 5059], Solea solea (common sole, species) [taxon 90069], Akkermansia muciniphila (species) [taxon 239935], Gallus gallus (bantam, species) [taxon 9031], Cymbopogon citratus (lemon grass, species) [taxon 66014], Bos taurus (bovine, species) [taxon 9913], Bacillota (clostridial firmicutes, phylum) [taxon 1239], Lactobacillus (genus) [taxon 1578], Mus musculus (house mouse, species) [taxon 10090], Beta vulgaris subsp. vulgaris (field beet, subspecies) [taxon 3555], Sus scrofa (pig, species) [taxon 9823], Ovis aries (domestic sheep, species) [taxon 9940]
- **Mutations:** AA-2G
- **Cell lines:** BV2 — Mus musculus (Mouse), Transformed cell line (CVCL_0182), C2C12 — Mus musculus (Mouse), Spontaneously immortalized cell line (CVCL_0188)

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12939989/full.md

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Source: https://tomesphere.com/paper/PMC12939989