Publish Time: 2026-05-25 Origin: Unionchem
Gellan gum is one of those ingredients that has quietly become essential across a wide range of formulations — yet many buyers and formulators encounter it without a clear picture of what it actually does, or why there are two distinct types that behave so differently from each other.
If you have ever seen a plant-based milk that stays perfectly uniform on the shelf without settling, a jelly with unusual clarity and a clean snap, or a beverage that suspends fruit pulp without any visible thickener effect — there is a good chance gellan gum was involved.
This guide explains what gellan gum is, how it works, the critical difference between Low Acyl (LA) and High Acyl (HA) gellan gum, and how to identify which type is right for your application.
At Unionchem, we supply both LA and HA gellan gum as part of our hydrocolloid portfolio:Gellan Gum — Unionchem Product Page
For a full view of our ingredient range, visit:All Products
Gellan gum is a water-soluble polysaccharide produced by microbial fermentation of the bacterium Sphingomonas elodea. It is a high-molecular-weight biopolymer that, when dissolved in water and cooled, forms a gel.
What makes gellan gum particularly valuable is not just that it gels — it is how it gels, and the exceptional range of textures and functional properties it can deliver depending on the form used and the conditions of the system.
Gelling — forms stable gels at very low concentrations (typically 0.02% to 0.2%)
Suspension — creates a weak gel network that holds particles in place without making a product feel thick
Stabilizing — prevents phase separation, sedimentation, and syneresis
Thermal stability — gels withstand high-temperature processing including UHT and pasteurization
Clarity — Low Acyl gellan gum produces brilliantly clear gels
Versatility — texture can be tuned from firm and brittle to soft and elastic depending on type and formulation
These properties make gellan gum useful in food and beverage, plant-based products, confectionery, dairy alternatives, microbiological and plant tissue culture media, and a range of specialty applications.
Gellan gum is produced through controlled microbial fermentation. Sphingomonas elodea bacteria are cultivated in a fermentation medium, where they produce the polysaccharide as a metabolic product.
After fermentation, the gellan gum is recovered, purified, and dried into a powder. The key processing step that determines the final product type is whether the acyl groups on the native polymer are retained or removed:
Native (unprocessed) fermentation produces High Acyl (HA) gellan gum, which retains its natural acyl substituents
Deacylation — treating the polymer with alkali — removes the acyl groups to produce Low Acyl (LA) gellan gum
This single processing difference produces two products with dramatically different gelling characteristics.
The most important thing to understand about gellan gum is that LA and HA are not interchangeable. They produce fundamentally different textures and serve different functional purposes.
Low Acyl gellan gum has had its acyl groups removed through deacylation. Without these substituents, the polymer chains can pack together tightly during gelation, forming a firm, brittle, and brilliantly clear gel.
Gel texture: Firm, brittle, non-elastic
Gel appearance: Brilliantly clear and transparent
Gelation: Triggered by cations (calcium, potassium, sodium) and cooling
Gel strength: High — strong gels at low concentrations
Syneresis: Can occur if not properly formulated
Thermal stability: Gels are heat-stable once set
Typical use concentration: 0.05% to 0.25%
Clear jellies and confectionery gels
Plant tissue culture and microbiological media (preferred over agar for clarity and consistency)
Transparent gelling applications where visual clarity is important
Structured food systems requiring a clean, firm bite
Specialty pharmaceutical and nutraceutical gels
High Acyl gellan gum retains its natural acyl groups. These substituents prevent the polymer chains from packing tightly, resulting in a soft, elastic, and opaque gel — and, critically, the ability to form a fluid gel at low concentrations.
Gel texture: Soft, elastic, flexible
Gel appearance: Opaque, creamy
Gelation: Occurs on cooling, less dependent on cations than LA
Fluid gel behavior: At low concentrations, forms a weak gel network that flows under shear but recovers at rest — ideal for suspension
Syneresis: Minimal
Typical use concentration: 0.02% to 0.15%
Plant-based milk and dairy alternative beverages — suspends protein, calcium, and other insoluble particles without making the drink feel thick
Pulpy juices and fruit-containing beverages — holds fruit particles in suspension
Yogurt and fermented dairy products — improves body and reduces syneresis
Bakery fillings and fruit preparations — provides soft, spreadable texture
Sauces and dressings — contributes to suspension and mouthfeel
Property | Low Acyl (LA) Gellan Gum | High Acyl (HA) Gellan Gum |
Acyl groups | Removed (deacylated) | Retained (native) |
Gel texture | Firm, brittle, non-elastic | Soft, elastic, flexible |
Gel appearance | Clear, transparent | Opaque, creamy |
Fluid gel capability | No | Yes — key functional advantage |
Suspension performance | Limited | Excellent |
Cation sensitivity | High | Lower |
Syneresis tendency | Higher | Lower |
Typical use concentration | 0.05% – 0.25% | 0.02% – 0.15% |
Thermal stability | High | High |
Key applications | Clear jellies, tissue culture, confectionery | Plant-based beverages, dairy alternatives, pulpy drinks, yogurt |
Performance reference | Kelcogel® F, Kelcogel® LT100 | Kelcogel® HM, Kelgel® |
One of gellan gum's most commercially important characteristics is its exceptional efficiency at very low use levels.
Effective gellan gum concentrations typically range from 0.02% to 0.2% — far lower than many other hydrocolloids used for comparable functions.
This matters for several practical reasons:
Cost-in-use — even if the per-kilogram price of gellan gum is higher than some alternatives, the very low effective dosage means the actual cost per unit of finished product can be highly competitive
Clean label — lower inclusion rates mean less impact on ingredient declarations
Formulation flexibility — low dosage leaves room for other functional ingredients without overloading the system
Texture precision — small adjustments in concentration produce meaningful changes in texture, giving formulators fine control
For buyers evaluating hydrocolloid costs, it is important to compare on a cost-in-use basis rather than a per-kilogram basis alone.
One of the fastest-growing application areas for gellan gum — particularly HA gellan gum — is plant-based milk and protein beverages.
The challenge in plant-based beverages is well known: protein particles, calcium, and other insoluble ingredients tend to settle to the bottom of the bottle or carton, creating an uneven product that requires vigorous shaking and leaves a poor impression on consumers.
Traditional thickeners can solve the sedimentation problem but create a new one: the beverage becomes too thick or viscous, losing the light, fluid texture consumers expect from a milk alternative.
HA gellan gum solves both problems simultaneously.
At very low concentrations (typically 0.02% to 0.05%), HA gellan gum forms a weak gel network — sometimes called a fluid gel — throughout the beverage. This network:
holds protein, calcium, and other particles in suspension, preventing sedimentation
breaks down under shear (when the bottle is shaken or the product is poured), allowing the beverage to flow freely
recovers its network structure at rest, maintaining suspension during storage
The result is a beverage that pours and drinks like a fluid but maintains perfect particle suspension on the shelf — without any noticeable thickening effect.
This is why HA gellan gum has become a standard ingredient in oat milk, almond milk, soy milk, pea protein beverages, and other plant-based drinks produced at commercial scale.
Outside of food and beverage, one of the most technically important applications for LA gellan gum is in plant tissue culture and microbiological growth media.
For decades, agar was the standard gelling agent for these applications. Gellan gum — particularly LA gellan gum — has become the preferred alternative in many laboratories and commercial tissue culture operations for several reasons:
Clarity — LA gellan gum produces a brilliantly clear gel, making it easier to observe root development, contamination, and culture growth
Lower effective concentration — gellan gum gels effectively at approximately half the concentration of agar, reducing material cost
Consistency — gellan gum is a defined, consistent product; agar quality can vary between batches and sources
Purity — high-purity gellan gum contains fewer impurities that could interfere with culture growth
Autoclavability — gellan gum gels withstand standard autoclave sterilization
For commercial plant propagation, research laboratories, and pharmaceutical microbiology, these advantages make LA gellan gum a technically superior choice over agar in many protocols.
Buyers and formulators working in food and beverage often ask how gellan gum compares to xanthan gum, since both are microbial fermentation-derived hydrocolloids used in similar application areas.
They have very different functional profiles.
Property | Gellan Gum (LA) | Gellan Gum (HA) | Xanthan Gum |
Primary function | Gelling | Suspension / soft gel | Thickening / suspension |
Gel formation | Yes — firm, clear gel | Yes — soft, elastic / fluid gel | No true gel (pseudoplastic solution) |
Suspension capability | Limited | Excellent | Good |
Shear-thinning | No | Yes (fluid gel) | Yes (strong) |
Clarity in solution | Excellent | Moderate | Moderate |
Thermal stability | High | High | Good |
Typical use level | 0.05% – 0.25% | 0.02% – 0.15% | 0.05% – 0.5% |
Key food applications | Clear jellies, confectionery | Plant-based beverages, dairy alt | Sauces, dressings, bakery, beverages |
Oilfield use | No | No | Yes — viscosifier, fluid loss |
In many formulations, gellan gum and xanthan gum are not direct substitutes. They are selected based on the specific functional requirement:
If you need a firm, clear gel — LA gellan gum
If you need suspension in a beverage without thickening — HA gellan gum
If you need thickening, viscosity, and shear-thinning in a sauce, dressing, or drilling fluid — xanthan gum
For a complete overview of xanthan gum and its applications, see:What Is Xanthan Gum and What Is It Used For?
For the Unionchem xanthan gum product page, visit:Xanthan Gum
For buyers in the tissue culture, microbiological, and food gelling markets, the comparison between gellan gum and agar is frequently relevant.
Property | LA Gellan Gum | Agar |
Origin | Microbial fermentation | Seaweed extraction |
Gel clarity | Excellent — brilliantly clear | Cloudy to semi-clear |
Effective concentration | ~0.1% – 0.2% | ~0.5% – 2.0% |
Batch consistency | High (defined product) | Variable (natural source) |
Purity | High | Variable |
Autoclavability | Yes | Yes |
Tissue culture suitability | Preferred in many protocols | Traditional standard |
Cost-in-use | Competitive (lower dosage) | Depends on grade |
For tissue culture and microbiological applications where clarity, consistency, and purity matter, LA gellan gum is the technically superior choice in most modern protocols.
Carrageenan is another widely used hydrocolloid in food and beverage, particularly in dairy and plant-based applications. Buyers sometimes evaluate gellan gum and carrageenan for similar applications.
Property | HA Gellan Gum | Carrageenan |
Origin | Microbial fermentation | Seaweed extraction |
Suspension in beverages | Excellent (fluid gel mechanism) | Good (kappa/iota types) |
Gel texture | Soft, elastic | Firm to soft depending on type |
Dairy compatibility | Good | Excellent (strong dairy interaction) |
Plant-based beverage use | Preferred in many formulations | Used but less efficient |
Effective use level | Very low (0.02% – 0.05%) | Moderate (0.01% – 0.5%) |
Label perception | Generally positive | Under scrutiny in some markets |
Batch consistency | High | Variable |
In plant-based beverages specifically, HA gellan gum has increasingly become the preferred choice over carrageenan due to its efficiency at very low concentrations, its clean fluid gel mechanism, and its favorable label positioning in many markets.
The choice between LA and HA gellan gum comes down to the texture and function you need in your application.
A firm, brittle, clear gel
High gel strength at low concentration
Transparency and visual clarity in the final product
A gelling agent for tissue culture or microbiological media
A clean-break texture in confectionery or structured food applications
A soft, elastic, or fluid gel texture
Suspension of particles in beverages without visible thickening
Stabilization of plant-based milk, protein drinks, or pulpy juices
A creamy, smooth texture in dairy alternatives or yogurt
Minimal syneresis in soft gel applications
If you are unsure which type is appropriate for your formulation, working with a supplier that can provide application-specific technical guidance is the most reliable approach.
For procurement teams and technical buyers, sourcing gellan gum involves several important evaluation points beyond price.
Confirm whether you need LA or HA — these are not interchangeable
Check viscosity, gel strength, and moisture specifications
Confirm purity grade (food grade, tissue culture grade, etc.)
Technical Data Sheet (TDS)
Certificate of Analysis (COA) per batch
Safety Data Sheet (SDS)
Food safety certifications relevant to your market (e.g., FSSC 22000, ISO 22000, Halal, Kosher)
Can the supplier consistently supply the specific type (LA or HA) you require?
Do they understand the application requirements behind your specification?
Can they support export documentation and global logistics?
Is the supplier a manufacturer or a trading company?
For guidance on evaluating hydrocolloid suppliers, see:Manufacturer or Trader? How to Choose a Reliable Hydrocolloid Supplier
Unionchem supplies both Low Acyl and High Acyl gellan gum under our UC-GG product series, designed to meet the performance requirements of food, beverage, and specialty industrial applications.
Grade | Type | Gel Characteristics | Key Applications | Performance Reference |
UC-GG-LA | Low Acyl (LA) Gellan Gum | Firm, brittle, clear gel | Clear jellies, confectionery, tissue culture, microbiological media | Kelcogel® F, Kelcogel® LT100 |
UC-GG-HA | High Acyl (HA) Gellan Gum | Soft, elastic, fluid gel | Plant-based beverages, dairy alternatives, pulpy juices, yogurt, bakery fillings | Kelcogel® HM, Kelgel® |
Both grades are available with full technical documentation including TDS, COA, and SDS, and are supplied with application support for formulation work.
For full product details and to request a sample, visit:Gellan Gum — Unionchem Product Page
Buyers working with gellan gum in food, beverage, and industrial applications may also be interested in:
Xanthan Gum — thickener, stabilizer, and suspension agent for food, beverage, and oilfield applications
Welan Gum — high-performance biopolymer for construction, oilfield, and industrial suspension applications
Carboxymethyl Cellulose (CMC) — versatile thickener, stabilizer, and water retention agent across food, industrial, and oilfield applications
Gellan gum is a high-performance hydrocolloid that delivers exceptional gelling, suspension, and stabilization at very low use concentrations. Its two primary forms — Low Acyl and High Acyl — serve fundamentally different functions and are selected based on the texture and performance requirement of the application.
LA gellan gum forms firm, brittle, brilliantly clear gels — ideal for confectionery, structured food systems, and tissue culture media
HA gellan gum forms soft, elastic, fluid gels — ideal for suspending particles in plant-based beverages, dairy alternatives, and pulpy drinks without adding visible thickness
Both types are effective at very low concentrations, offering strong cost-in-use performance
Gellan gum is not a direct substitute for xanthan gum, agar, or carrageenan — it has a distinct functional profile that makes it the preferred choice for specific applications
Selecting the right type and grade requires understanding your formulation requirements and working with a supplier that can provide both the product and the technical support to match.
Explore Unionchem's gellan gum solutions:Gellan Gum — Unionchem Product Page
Low Acyl (LA) gellan gum produces firm, brittle, and brilliantly clear gels. High Acyl (HA) gellan gum produces soft, elastic, and opaque gels, and is capable of forming a fluid gel network that is highly effective for particle suspension in beverages. They are not interchangeable — the choice depends on the texture and function required.
HA gellan gum forms a weak fluid gel network at very low concentrations (typically 0.02% to 0.05%). This network suspends protein, calcium, and other insoluble particles throughout the beverage, preventing sedimentation without making the drink feel thick or heavy. It is one of the most efficient suspension agents available for plant-based beverage applications.
Yes. LA gellan gum is widely preferred over agar in plant tissue culture. It produces a clearer, more consistent gel at approximately half the concentration of agar, allowing easier observation of culture development and more reliable results. It is also a more defined and consistent product than agar, which can vary between batches.
A fluid gel is a weak gel network that holds its structure at rest but flows freely under shear (such as when a bottle is shaken or a product is poured). HA gellan gum forms fluid gels at low concentrations, which is why it is so effective for beverage suspension — it keeps particles in place during storage but allows the product to pour and drink like a normal fluid.
Gellan gum and xanthan gum have different functional profiles. Gellan gum is primarily a gelling and suspension agent. Xanthan gum is primarily a thickener and viscosity modifier with strong shear-thinning behavior. In most applications, they are not direct substitutes — the choice depends on whether you need gelling, suspension without thickening, or viscosity and flow control.
Effective concentrations depend on the application and type. LA gellan gum is typically used at 0.05% to 0.25% for gelling applications. HA gellan gum is typically used at 0.02% to 0.15% for suspension and soft gel applications. Exact dosage should be determined through formulation testing, as system composition (particularly cation content) significantly affects gelation behavior.
Yes. Unionchem supplies both Low Acyl (UC-GG-LA) and High Acyl (UC-GG-HA) gellan gum with full technical documentation and application support. See: Gellan Gum — Unionchem Product Page
Unionchem supplies Low Acyl and High Acyl Gellan Gum for food, beverage, plant-based, and specialty applications — with consistent quality, full documentation, and technical support for your formulation work.
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Contact us:sales@unionchem.com.cnPhone: +86-13953383796 | +86-533-7220272Website:www.unionchem.com.cn
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