BRPI0902629A2 - use of mesquite for the production of xanthan gum water-based polysaccharide polymer - Google Patents

Abstract

USE OF ALGAROBA FOR THE PRODUCTION OF WATER BASED POLYMER POLYMER OF THE GUM XANTAN TYPE The present invention describes a practical method for the use of mesquite for the production of aqueous-soluble biopolymer of the xanthan gum type, substituting either the means of production, or the medium of production. of growth, be it both media, used in the state of the art production of GOMA XANTANA and leading to a process with significant economic gain in relation to the usual processes of production of xanthan gum is presented.

Description

USE OF ALGAROBA FOR THE PRODUCTION OF XANTANA GUM TYPE WATER-BASED POLYMER

The present invention relates to the use of the Algaroba vegetable (Prosopisjuliflora) as a raw material for industrial xanthan gum type water-based polysaccharide production process.

Xanthan gum is produced by the action of bacteria of the species Xanthomonas campestrís or other Xanthomonas species undergoing aerobic defermentation from a carbon source. GomaXantana Biopolymer is usable in a wide range of industries including food, cosmetics, pharmaceuticals, textiles, explosives and petroleum, exhibiting excellent viscosity characteristics and a significant emulsifying stabilizing effect as well as excellent salt resistance and high pH resistance. as stability to the enzymatic action which increases the use of Xanthan Gum as an important additive in considerable plurality of processes and products.

This biopolymer has a molecular weight in the range of 0.5 to 12 million dedaltons and consists molecularly of a 2: 2: 1 ratio of carbohydrate queglucose, mannose, and glucuronic acid arranged in a main chain consisting of D-glucose-D bonds. -glucose (1-4) and in which every three glucose units there is a branched chain consisting of three carbohydrates being the one linked to the glucosidic chain, one acetylated mannose, the central carbohydrate, being a glucuronic acid and the third carbohydrate, an acetal-linked mannose. -1,3 with pyruvic acid.

Numerous publications refer to the production of water-based xanthan gum polysaccharides. US patents may be cited: US 3,020,206, US 3,251,749, US 3,391,060, US 3,271,267, US 3,427,226, US 3,433,708 , US 3,455,786, US 3,594,280, US 4,154,654 and US 4,282,321.

Xanthan gum is produced by fermentation of carbohydrate-based carbon source generally glucose, sucrose, starch and others in a suitable culture medium where mineral nitrogen in the form of ammonium cations or organic nitrogen as well as potassium salts, magnesium, and other ions in lesser concentration. , give conditions for the fermentation process to follow a known kinetics.

The usual procedure for performing fermentation involves two different steps. Initially, the microorganism to be used is subjected to suitable small-scale cultivation in order to obtain a relatively high bacterial concentration corresponding to that so-called germination or growth phase. At this stage, the bacteria do not produce the exopolymer or produce it in very low concentration. The population of microorganisms grows significantly at this stage.

This is why it is called the germination or growth phase.

Thereafter, the material resulting from this first stage, having a relatively high concentration, is inoculated into the fermentation reactor where, in fermentation medium, said production, the development of the biopolymer is consolidated.

The raw materials for obtaining xanthan gum are usually carbohydrates such as glucose, dextrose and sucrose. Because saccharose and glucose are human foods, there is an interest in using an alternative carbohydrate source whose use does not influence the food balance.

An attractive carbohydrate source that can be used to produce this biopolymer is the pod extract from the algarobeira plant (Prosopis juliflora).

The algarobeira is a widespread Ieguminous, resistant to prolonged and widespread estiagem originating from Central America and South and even from India, and it grows well in arid climates acting as a reforestation and fodder plant being a very well developed xerophyte in northeastern Brazil and even uncontrolled and aggressive and even competitive with the native flora.

The algarobeira is excellent for feeding cattle with their leaves and pods and also being a source of excellent wood. The resistance of this vegetable to desert climates is due to its ability to absorb moisture from the air that it fixes by condensation and stored until its roots are quite long. The algarobeira is used for the production of wood, charcoal, cuttings, alcohol, molasses, cachaça, animal and human nutrition, beekeeping, reforestation, landscaping and shading, thus becoming a culture of economic and social importance. In Northeastern Brazil, this xerophyte, introduced in the early 1940s, for the purpose of feeding animals and being used in reforestation, currently appears as a possible source of biopolymers to constitute valuable inputs.

The average yield of the Algaroba tree is 3000kg per hectare, which is higher, for example, than that of 2000kg corn per hectare.

The mesquite meal which is an industrial product is obtained by milling the mesquite pod once dried and contains about 55% sucrose and is used especially in animal feed. Dealgaroba bran contains fines and fibers where cellulose and hemicelluloses are the main components.

The carbohydrate content of the mesquite pod is very high, with a 75% carbohydrate disorder. Sugars are especially sucrose, and glucose. Also in its composition, the protein part is important corresponding to 10%. Thus mesquite is a very rich source of carbohydrates that can be properly transformed into xanthan gum-type embiopolymers.

In the overall constitution of the mesquite pod, and therefore of its bran, the levels of potassium, magnesium, sulfur, iron and other existing micronutrients is very similar to the concentration of these cationic species in a production medium normally used for the development of the xanthan gum polymer.

Thus, mesquite and especially mesquite meal a source of carbohydrates with a high concentration of mesquite and therefore a privileged carbon source and having in their own constitution nitrogenated micronutrients and also cations and anions that are of the same nature as the culture media normally used for the production. For the growth and production of aqueous soluble biopolymers especially xanthan gum and proper bacterial fermentation, the idea is to use mesquite and its bran directly in the production of xanthan gum.

DESCRIPTION OF THE INVENTION

The present invention relates to the use of the Algaroba (Prosopisjulifíora) vegetable as a raw material for industrial process of xanthan gum-type water-based polysaccharide production.

More specifically, the present invention relates to harnessing the pod of the Algaroba vegetable (Prosopis julifíora) pod to obtain the water-soluble xanthan gum-like biopolymer.

In this respect, the use of Algaroba extract is then used as a carbon source and as a developmental medium in the production phase to obtain aqueous soluble polysaccharide of the xanthan gum type.

There is no mention in the state of the art of the use of alga extract as source for the production of xanthan gum or the like taking advantage of the high carbohydrate content and the composition of micro nutrients present in this material leading to the production of xanthan gum biopolymer with significant state-of-the-art economics. of the art of producing this biopolymer.

Algaroba is the Prosopis julifíora vegetable, an Ieguminous of immersion resistance to arid soils that characterize the semi-arid and the caatinga and that grows with great vigor in the Northeast of Brazil.

Use of mesquite meal to obtain the water-soluble xanthan gum biopolymer.

The use of mesquite meal as a direct source for obtaining a sucrose-rich aqueous extract that is used directly as a carbon source and as a culture medium for the production of xanthan tipogoma biopolymer is an innovative alternative as it allows considerable gains compared to the process of The state of the art of obtaining this biopolymer is that with this material, the carbon source and the cation and anion rich development and production medium required for the abacteria responsible for the production of the exopolymer are already contained in this respective extract. Thus, the fermentation of this aqueous extract obtained from the mesquite meal with Xanthomonas campestris-type microorganisms or other species of Xanthomonas or other microorganisms generates the biopolymer of the corresponding xanthan tipogoma or other respective biopolymers.

Description

The methodology for obtaining this aqueous extract and its purification is prior to its introduction into the fermentation reactor to be inoculated as a growth medium containing the bacteria already in the proper stage of development or to be inoculated with the bacteria so that they grow in this naturally rich medium. micronutrients and cationic and anionic species, and in such a way that they produce xanthan gum-like exopolymer in this medium, are important elements of this innovation.

The composition of the mesquite pod according to Invention Patent PI8601641 is as follows:

<table> table see original document page 6 </column> </row> <table>

In general, taking into account other information, in the mesquite pod, the seed is present at 10-13% and of the seed, 25-30% constitute the endosperm. The mesquite pod pulp, which responds to the exocarp and mesocarp, for 56% of the dry weight of the mesquite pod. In the chemical composition of the pulp, sucrose is 46.3% by weight. In the seeds, which make up about 9% -11% of the dry weight of the pod, are the episperm (20%), endosperm (32%) and cotyledons (48%).

In the endosperm, the predominant polysaccharide is galactomannan, consisting basically of 46.28% mannose and 33.97% galactose and which patent highlights.

The composition of the pods is as follows without regard to the sucrose content already indicated above.

TABLE X. Composition of the pods and leaves of the mesquite tree in different nutritional principles (g / kg DM).

<table> table see original document page 7 </column> </row> <table> Thus, Xanthomonas campestris cells are grown in mesquite extract medium with growth kinetics suitable for this medium.

Use of mesquite meal to obtain the water-soluble xanthan gum biopolymer.

By this module the raw material is mesquite meal of the type supplied by specialized companies. This bran is extracted with water and the aqueous extract is used directly in the production of xanthan gum-type water-soluble biopolymer.

The composition of an extract of this bran is rich in atheroric carbohydrates greater than 50%, 25% protein, 5% glucids, as well as the elements and microelements that stand out potassium, calcium, magnesium, iron, manganese and phosphate.

The process

Two uses are protected by this patent: the use of aqueous extract as a production medium and the use of aqueous extract as a growth medium and production medium in the mesmoreator.

Mesquite meal is received from the plantation and production centers and is properly stocked with care for its maintenance and protection as for its physical conservation and the development of organisms and microorganisms that may damage or compromise it.

Approximately 150g of mesquite meal is sieved through 60 mesh separating mainly unused fiber material.

68 grams of already sifted mesquite meal are suspended in one liter of water and blended in a blender so that almost 90% of the material is homogeneously dispersed.

The suspension is filtered through a 350 mesh filter and the material obtained is used in two different ways.

This aqueous extract has a content of 56% of saccharose as quantified by HPLC. It should be noted that this process refers to obtaining and using the aqueous extract of the pod content in the case of desaving bran, which is not restricted to it. Alternatively, the pod may be compressed in water without having previously dried it and an extract of the material will be obtained in the same manner as described below.

Utilization of the aqueous solution resulting from the extraction of dealgaroba bran as a production medium of the xanthan gum biopolymer 500ml of the solution obtained according to the previous item was sterilized at 125 ° C and to it were added 100ml of a YM growth medium solution which was developed for 55 minutes. hours, according to state of the art, the microorganisms Xanthomonas campestris.

YM culture medium is, as it is known, composed of yeast, malt and nitrogen source in the peptone case. The reference shows the preparation of this culture medium. Such culture medium, after sterilization at 125 ° C, is inoculated with the equivalent of 1 ml of the previously developed Ependorf-frozen solution of Xanthomonas campestris. There is no restriction on the strain of Xanthomonas campestris being used. After 55 hours of decay in which the kinetics of this bacterial growth reaches its faselag, this culture medium solution containing the sufficiently grown microorganisms is added as indicated to 500 ml of the medium constituted by the mesquite meal aqueous extract.

The development of the biopolymer is continued under orshaker orbital shaking at 27 ° C. After 72 hours, when the medium reaches viscosity and indicates the presence of the biopolymer in adequate concentration, the medium is treated with isopropanol and the xanthan gum is precipitated and, after washing, is dried and suitably characterized by chemical, chromatographic and spectroscopic techniques.

Utilization of the aqueous solution resulting from the extraction of dealgaroba bran as growth medium of the Xanthomonascampestris microorganism and production medium of the xanthan gum biopolymer.500ml of the solution obtained according to the previous item, were sterilized at 125 ° C and the equivalent of an Ependorf was added to it. corresponding to 1 ml of preserved frozen Xanthomonas campestris cell culture medium as described in the state of production of the xanthan gum biopolymer.

Placed in a shaker with orbital shaking at 350rpm, bacterial growth was followed until the microorganisms reached the growth stage.

Still in the same erlemeyer, the system is left for adequate time when fermentation leading to the production of the exopolymer, settles and seconsolidates. Total growth and production times with the same development medium are, as a rule, shorter than those obtained with the state-of-the-art xanthan gum production culture media. On average 75 hours, since the inoculation of Ependorf containing the frozen solution of cells, the complete process with growth and production is obtained.

Thus, the mesquite pod extract from the mesquite pod thus eliminates the use of raw sugar itself and dispenses the inputs that correspond to the usual means of growth and production of xanthan gum.

Thus, the extract under consideration is the culture medium for affermentation with Xanthomonas campestris microorganisms resulting in xanthan gum produced entirely from algarobas extract replacing the usual sources of mono and disaccharide sucrose, glucose or dextrose carbohydrates and also dispensing with the components. culture medium normally used for the production of this biopolymer.

This is because the aqueous extract of the mesquite pod already contains not only an adequate and high carbohydrate content as well as proteinaceous and mineral micronutrient contents which allow a considerable simplification in the fermentation process, eliminating the usual means of growth. and production of GomaXantana1 and the entire fermentative procedure performed in mesquite extract medium.

Thus, the production medium which is characterized by sugars next to cationic heteroelements such as potassium, magnesium, calcium, iron, anionic zinc and phosphates, nitrates and sulfates, citrates and borates is completely replaced in this invention by mesquite extract (preferably extract). of mesquite meal).

It will be clear to those skilled in the art that variations in the culture medium can be made without departing from the inventive concept and scope of the invention. Thus, it is intended that the present invention cover such modifications and variations as long as they are within the scope of the following claims and their equivalents.

Claims (9)

1.) Industrial process for the production of polysaccharide, water based xanthan gum characterized by substitution of carbon source, usually glucose sugars, sucrose, dextrose is by the vegetable substrate obtained from mesquite pods which is used in fermentation under the action of the Xanthomas campestrís microorganism. previously defined strain or other alternative microorganism commonly used to obtain Xanthan Gum. Process according to Claim 1, characterized in that the plant substrate obtained from mesquite pods is substituted for the usual SD-type production culture medium and uses the previously defined strain Xanthomas campestris or other micro-organism to obtain Xanthan Gum. Process according to Claim 1, characterized in that the plant substrate obtained from mesquite pods is substituted for the usual YM and SD growth and production media and uses the previously defined Xanthomas campestrís or other microorganism. alternative microorganism for obtaining Xanthan Gum Process according to Claim 1, characterized in that the plant substrate obtained from mesquite meal is substituted for the usual SD-type production culture medium and uses a previously defined strain Xanthomas campestrís or another alternative microorganism to obtain Xanthan Gum. Process according to Claim 1, characterized in that the plant substrate obtained from mesquite meal is substituted for the usual YM and SD type growth and production media and uses the previously defined Xanthomas campestrís or other microorganism. alternative microorganism to obtain Xanthan Gum. 6.) A process according to claim 1, characterized by the use of a plant substrate constituted so that there is a rational use of a plant which today is characterized as a pest by ecologists and biodiversity experts of the Northeast region catalyzing the establishment of organized plantation systems. of this vegetable and its use. Process according to Claim 1, characterized in that the plant substrate is formed so that the production medium of the xanthan gum biopolymer is the aqueous extract obtained from dealgaroba bran in which the sugars constituting this extract replace the carbon source. carbohydrate normally used in this type of fermentation. Process according to Claim 1, characterized in that the plant substrate is formed so that the xanthan gum biopolymer production medium is the aqueous extract obtained from the cargaroba meal in which the micronutrients, amino acids, cations and anions thereof constitute. extract replace the production medium normally used in this fermentation consisting of potassium, magnesium, calcium, ammonium and phosphate salts. Process according to Claim 1, characterized in that the plant substrate comprises the production medium and the growth medium of Xanthomonas campestris cells for the production of the xanthan gum biopolymer is the purified aqueous extract obtained from the mesquite meal. and wherein the development time of the biopolymer is shorter than the time normally required for process in the state of production of xanthan gum.