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      Anticorpos policlonais em dietas com alta inclusão de concentrado para bovinos confinados Translated title: Polyclonal antibodies for feedlot cattle fed high-concentrate diets

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          Abstract

          Dentre as alternativas para substituir o uso de ionóforos classificados como antibiótico por alguns comitês, a utilização de anticorpos policlonais classificados como promotores de crescimento naturais tem se mostrado alternativa interessante e economicamente eficiente. Recentes estudos demonstraram pontos positivos na utilização desse aditivo em dietas com alta inclusão de ingredientes concentrados para bovinos confinados, traduzido por melhora de desempenho e saúde ruminal, em alguns casos, semelhantes à monensina sódica. No entanto, alguns pontos dessa nova tecnologia ainda devem ser elucidados, entre eles, a possível perda de atividade da forma sólida de apresentação do preparado e a diminuição do rendimento de carcaça encontrado em alguns estudos. Contudo, a presente revisão destaca a possibilidade de substituição da monensina sódica por anticorpos policlonais sem resultar em diminuição de desempenho e de rentabilidade para a bovinocultura de corte brasileira.

          Translated abstract

          Among alternatives to replace ionophores, which are classified as antibiotics by some committees, the feeding of polyclonal antibodies have shown an interesting and economically efficient alternative. Recent studies have demonstrated some advantages of adding polyclonal antibodies into high-concentrate diets for feedlot cattle, showed by increased performance and ruminal health, in some cases similar to sodium monensin. However, there are blind spots of this innovated technology that still need to be elucidated, as example, if the dry form of the preparation is inactivated and decreased carcass-dressing percentage. All in all, this review demonstrates the possibility of replacing sodium monensin by this feed additive without negatively impacting animal performance and profit of cattle feeders in Brazil.

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          Methane output and lactation response in Holstein cattle with monensin or unsaturated fat added to the diet.

          V Fellner, S. Chen, R Kinsman (1998)
          We measured effects of continuous vs twice-daily feeding, the addition of unsaturated fat to the diet, and monensin on milk production, milk composition, feed intake, and CO2-methane production in four experiments in a herd of 88 to 109 milking Holsteins. Methane and CO2 production increased with twice-daily feeding, but the CO2:CH4 ratio remained unchanged. Soybean oil did not affect the milkfat percentages, but fatty acid composition was changed. All saturated fatty acids up to and including 16:0 decreased (P < .01), whereas 18:0 and trans 18:1 increased (P < .001). The 18:2 conjugated dienes also increased (P < .01) when the cows were fed soybean oil. Monensin addition to the diet at 24 ppm decreased methane production (P < .01); the CO2:CH4 ratios reached 15, milk production increased (P < .01), and milkfat percentage and total milkfat output decreased (P < .01), as did feed consumption, compared with cows fed diets without monensin (P < .05). Milk fatty acid composition showed evidence of depressed ruminal biohydrogenation: saturated fatty acids (P < .05) decreased and 18:1 increased (P < .001); most of the increase was seen in the trans 18:1 isomer. As with soybean oil feeding, addition of monensin also increased (P < .05) the concentration of conjugated dienes. The monensin feeding trial was repeated 161 d later with 88 cows, of which 67 received monensin in the diet in the first trial and 21 cows were newly freshened and had never received monensin. Methane production again decreased (P < .05), but this time the CO2:CH4 ratio did not change and all other monensin-related effects were absent. The ruminal microflora in the cows that had previously received monensin seemed to have undergone some adaptive changes and no longer responded as before.
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            Molecular stability of chicken and rabbit immunoglobulin G.

            M Shimizu, H Nagashima, K Sano (1992)
            Molecular stability of chicken egg yolk immunoglobulin G (IgY) and that of rabbit IgG were compared by measuring antibody activities and conformational changes. Stability of rabbit IgG to acid denaturation was much higher than that of IgY. Conformation of the IgY molecule was readily changed in acidic conditions, resulting in a rapid loss of antibody activity. Much less stable natures of IgY to heat-treatment and guanidine-HCl denaturation than rabbit IgG were also observed. Differences in the structure between the two immunoglobulins that might participate in their different stability were inferred from their amino acid sequence data. Importance of the intramolecular disulfide linkage in the rabbit light chain and some other structural differences were suggested.
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              Effect of nigericin, monensin, and tetronasin on biohydrogenation in continuous flow-through ruminal fermenters.

              V Fellner, Zachary J. Kramer, James D. Sauer (1997)
              Four ionophores differing in cation selectivity were compared for their effect on microbial fermentation and biohydrogenation by ruminal bacteria in continuous culture. Monensin and nigericin are monovalent antiporters with selective binding affinities for Na+ and K+, respectively. Tetronasin is a divalent antiporter that binds preferentially with Ca2+ or Mg2+. Valinomycin is a monovalent uniporter and does not exchange K+ for H+. Steady-state concentrations of 2 micrograms/ml of monensin, nigericin, tetronasin, or valinomycin were maintained by constant infusion into fermenters. Molar percentages of acetate were lower, and those of propionate were higher, in the presence of monensin, nigericin, and tetronasin; all three ionophores also decreased CH4 production. Concentrations of valinomycin as high as 8 micrograms/ml had no effect on volatile fatty acids or CH4 production. Monensin, nigericin, and tetronasin inhibited the rate of biohydrogenation of linoleic acid. Continuous infusion of C18:2n-6 at a steady-state concentration of 314 micrograms/ml into fermenters receiving monensin, nigericin, or tetronasin resulted in lower amounts of stearic acid and higher amounts of oleic acid. Ionophores increased total C18:2 conjugated acids mainly because of an increase in the cis-9, trans-11-C18:2 isomer. If reflected in milk fat, ionophore-induced changes in ruminal lipids could enhance the nutritional qualities of milk.
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                Author and article information

                Contributors
                Danilo Domingues Millen: Role: ND
                João Ricardo Ronchesel: Role: ND
                Fernando Salvador Parra: Role: ND
                Rodrigo Dias Lauritano Pacheco: Role: ND
                Cyntia Ludovico Martins: Role: ND
                Mário De Beni Arrigoni: Role: ND
                Journal
                Journal ID (publisher): cr
                Title: Ciência Rural
                Abbreviated Title: Cienc. Rural
                Publisher: Universidade Federal de Santa Maria (Santa Maria )
                ISSN: 1678-4596
                Publication date (Print): September 2013
                Volume: 43
                Issue: 9
                Pages: 1660-1667
                Affiliations
                [1 ] Universidade Estadual Paulista Brazil
                [2 ] Universidade Estadual Paulista Brazil
                [3 ] Universidade Estadual Paulista Brazil
                Article
                Publisher ID: S0103-84782013000900020
                SO-VID: 554f7d31-a43d-4850-894a-03cd57e88063
                License:

                http://creativecommons.org/licenses/by/4.0/

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                SciELO Brazil

                Self URI (journal page): http://www.scielo.br/scielo.php?script=sci_serial&pid=0103-8478&lng=en
                Categories
                Subject: AGRONOMY

                ScienceOpen disciplines: Horticulture
                Keywords: acidosis,alternative,antibiotics,ionophores,acidose,alternativa,antibióticos,ionóforos
                Data availability:
                ScienceOpen disciplines: Horticulture
                Keywords: acidosis, alternative, antibiotics, ionophores, acidose, alternativa, antibióticos, ionóforos

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