Improvement of Ruminal Neutral Detergent Fiber Degradability by Obtaining and Using Exogenous Fibrolytic Enzymes from White-Rot Fungi

Carrillo-Díaz, María Isabel; Miranda‐Romero, Luis Alberto; Chávez-Aguilar, Griselda; Zepeda-Batista, José Luis; González-Reyes, Mónica; García-Casillas, Arturo César; Tirado‐González, Deli Nazmín; Tirado‐Estrada, Gustavo

doi:10.3390/ani12070843

Cited by 14 publications

(5 citation statements)

References 110 publications

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“…Therefore, the in vitro anaerobic ruminal fermentation technique was used as an alternative, which provides a quick, pro [31] and making the feed more susceptible to ruminal degradation and microbial colonization [32]. Enzymatic additives may also interact synergistically with endogenous enzymes of ruminal microbes [30,31]. The precise mechanisms for the EFE detrimental effect are not well known, but it could be related to the excess enzymatic concentration in the ruminal environment, which may inhibit microbial enzyme production, block enzyme binding sites [33], or decrease the microbial e ciency to attach the feed and degrade the feed structure [34].…”

Section: Discussionmentioning

confidence: 99%

“…[42] suggested that the chemical pre-treatment of wheat straw and rice straw enhanced the e cacy of EFE on ruminant fermentation and dry matter digestibility and acted synergistically with urea pre-treatment to improve the digestive use of brous by-products. Some other potential factors could in uence the e cacy of cellulases and xylanases supplementation, such as the molecular weight of brolytic components, the proteolytic stability within the digestive tract, ruminal conditions, the ingredients of the diets, and the forage-to-concentrate ratios [30,43].…”

Section: Discussionmentioning

confidence: 99%

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Evaluation of the efficacy of varying xylanase to cellulase ratio on ruminal fermentation of untreated and alkali treated oat straw

Jabri

Abid

Yaich

et al. 2022

Preprint

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Two in vitro ruminal fermentation assays were conducted to study the effect of exogenous fibrolytic enzyme (EFE) supplementation on untreated and alkali treated oat straw. During the first experiment, five CellulasePLUS-XylanasePLUS (DyadicPLUS International Inc.) complexes (EFE): DEF1 (100% CellulasePLUS), DEF2 (100% XylanasePLUS), DEF3 (50% CellulasePLUS + 50% XylanasePLUS), DEF4 (75% CellulasePLUS + 25% XylanasePLUS), DEF5 (25% CellulasePLUS + 75% XylanasePLUS) at varying xylanase to cellulase ratio (between 0.49 and 2.2) were assessed at 0, 0.5, 1, 2, 3, 5, 10, 20, 30 µl/gDM. DEF1 and DEF2 were subject to higher doses 60 and 100 µl/g DM. 200 mg of grounded oat straw was anaerobically incubated with buffer solution, fresh ruminal fluid, and EFE. The gas production (GP) was measured during 96h of incubation. EFE supplementation improved the rate and extent of GP and exerted quadratic responses (p-value < 0.001) for most parameters. The highest results were recorded for DEF3 (xylanase to cellulase = 1.5) with its optimal dose D5 = 5µl/gDM. As compared to the control, DEF3 increased the GP, GP rate, OMD, VFA and ME by 63.7%, 144.7%, 77.2%, 135.5%, and 54.8%, respectively. The responses to EFE were dependent on dose rate and varying xylanase to cellulase ratio. DEF3 was reevaluated in second experiment on untreated, NaOH (OSS) and Urea (OSU) treated oat straw. DEF3 was less effective regarding GP, fermentation parameters, and estimated OMD, ME, and VFA of OSS and OSU. Therefore, selecting the best xylanase to cellulase ratio and its optimal dose depends on chemical composition of the targeted substrate because of enzyme-substrate specificity.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Evaluation of the efficacy of varying xylanase to cellulase ratio on ruminal fermentation of untreated and alkali treated oat straw

Jabri

Abid

Yaich

et al. 2022

Preprint

View full text Add to dashboard Cite

show abstract

“…Possible mode of action of EFE can be explained through their effect on feed before consumption or through improvement of digestion within the rumen and/or their impact at post ruminal digestive tract. Effect of EFE on feed before consumption may be simple to complex like release of soluble carbohydrate, release or removal of structural barriers of feed which restrict microbial digestion in the rumen [24,32]. In the rumen, EFE may act directly on feed or indirectly may work synergistically with rumen microbes.…”

Section: Modes Of Action Of Exogenous Fibrolytic Enzymes (Efe)mentioning

confidence: 99%

A Review on the Role of Exogenous Fibrolytic Enzymes in Ruminant Nutrition

Anil

Yadav²,

Anand³

et al. 2022

CJAST

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Dairy production system in developing countries mainly depends on forage plants and crop residues as major portion of the Ruminants diet. The majority of the dry matter in forage crops is made up of fibre whose digestibility is limited in rumen ecosystem. Use of exogenous fibrolytic enzymes (EFE) is gaining popularity in recent days as they overcome the limitations of other methodologies which are used to improve the digestibility of fibre. Due to microbial enzyme activity, ruminants are able to break down fibrous feedstuff, but structural polysaccharides like cellulose, hemicellulose, and lignin will only be partially broken down. The primary purpose of these enzymes is to provide as many nutrients as possible from the indigestible, potentially digestible, and digestible portions of the cell wall. EFE employed in ruminant diets can be divided into three primary categories based on the specific substrates on which their enzyme activity can take place: fibrolytic, amylolytic, and proteolytic. Enzymes can be applied in liquid or granular form to hay, silage, concentrate, TMR, supplement or premix. Even though positive results were obtained, up to date animal responses to EFE supplements have varied greatly due to enzymatic handling, dosage, diet constituents, time and method of applications. This renders need for further dedicated research efforts for the broad generalization of exogenous enzyme usage in ruminant nutrition. The goal of this study was to give a concise summary of the current state of knowledge about EFE usage in ruminant diets and to discuss potential future research areas.

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“…Hence, it is used as common measure of fiber content required in animal feed [19]. Therefore, NDF level above 65% in the feed may reduce dry matter intake [20], and that may lead to an adverse effect on potential milk and meat production and quality [21]. According to Tirado-Estrada et al [22], NDF proportion and degradability of the forage can be used to predict the dry matter intake and productive performance of the animal.…”

Section: Introductionmentioning

confidence: 99%

Effects of Stylosanthes scabra Forage Supplementation on in Vitro Gas Production and Fiber Degradation of Eragrostis Grass Hay

Mpanza¹,

Hassen²

2023

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Natural pastures constitute a major component of ruminant livestock feed, and are the most cost-effective feed resource available for smallholder subsistence farmers. However, this feed resource does not meet animal nutritional requirement due to deficiency in nitrogen, energy and minerals. In addition, at maturity lignification is the major concern since it reduces digestibility and contributes to methane emission. Thus, the objective of this study was to evaluate the effect of supplementing low-quality Eragrostis grass hay with five (9281, 11,252, 11,255, 11,595 and 11,604) selected Stylosanthes scabra accessions on in vitro ruminal fermentation and neutral detergent fiber degradation. Therefore, in vitro study was conducted on grass hay, accessions and the mixture of grass hay with each accession included at two (15%, 30%) levels. The substrates (grass hay, accessions and the mixtures) were incubated in separate serum bottles for 72 h. Neutral detergent fiber (NDF) of the accessions ranged from 300 to 350 g/kg DM with crude protein (CP) value ranging from 177.5 to 184.1 g/kg DM. Eragrostis grass hay had NDF value of 813 g/kg DM, with CP value of 34.3 g/kg DM. Grass hay fermented slowly, it took 30 h for grass hay to produce gas volume above 50 mL, while Stylosanthes scabra accessions took 12 h. Supplementing grass hay with accessions significantly improved fermentation. However, it was observed that 15% inclusion took 30 h to produce gas volume above 50 mL, whereas at 30% inclusions it took 24 h for accession 9281,11,595 and 11,604. Accession 11,604 improve grass fermentation by almost three times the value of grass hay in 2 h. Grass hay supplemented with accession 11,604 at 30% had a positive associative effect and significantly improved NDF degradability. In conclusion, accession 11,604 may be fed strategically as forage supplement to low-quality forage for ruminants.

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Improvement of Ruminal Neutral Detergent Fiber Degradability by Obtaining and Using Exogenous Fibrolytic Enzymes from White-Rot Fungi

Cited by 14 publications

References 110 publications

Evaluation of the efficacy of varying xylanase to cellulase ratio on ruminal fermentation of untreated and alkali treated oat straw

Evaluation of the efficacy of varying xylanase to cellulase ratio on ruminal fermentation of untreated and alkali treated oat straw

A Review on the Role of Exogenous Fibrolytic Enzymes in Ruminant Nutrition

Effects of <i>Stylosanthes scabra</i> Forage Supplementation on <i>in Vitro</i> Gas Production and Fiber Degradation of <i>Eragrostis</i> Grass Hay

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Improvement of Ruminal Neutral Detergent Fiber Degradability by Obtaining and Using Exogenous Fibrolytic Enzymes from White-Rot Fungi

Cited by 14 publications

References 110 publications

Evaluation of the efficacy of varying xylanase to cellulase ratio on ruminal fermentation of untreated and alkali treated oat straw

Evaluation of the efficacy of varying xylanase to cellulase ratio on ruminal fermentation of untreated and alkali treated oat straw

A Review on the Role of Exogenous Fibrolytic Enzymes in Ruminant Nutrition

Effects of &lt;i&gt;Stylosanthes scabra&lt;/i&gt; Forage Supplementation on &lt;i&gt;in Vitro&lt;/i&gt; Gas Production and Fiber Degradation of &lt;i&gt;Eragrostis&lt;/i&gt; Grass Hay

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Effects of <i>Stylosanthes scabra</i> Forage Supplementation on <i>in Vitro</i> Gas Production and Fiber Degradation of <i>Eragrostis</i> Grass Hay