补锌和盐酸莱克多巴胺对肥育肉牛锌转运蛋白基因表达的影响

IF 2.1 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE Frontiers in animal science Pub Date : 2023-06-20 DOI:10.3389/fanim.2023.1191230
Emma L Rients, Remy N. Wyatt, E. Deters, O. Genther-Schroeder, S. Hansen
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引用次数: 0

摘要

锌是一种对优化饲养场牛生长感兴趣的微量矿物,因为它在包括生长在内的许多生理功能中发挥作用。24头安格斯杂交牛(467±13kg)用于评估补充锌和盐酸莱克多巴胺(RAC)对微量矿物质浓度和肌肉基因表达的影响。四只配备GrowSafe的围栏被随机分配到处理(六头公牛中的一只围栏/处理):0(CON)、60(LOW)、120(MED)或180(HI)mg补充Zn/kg DM(Availa-Zn,Zinpro)。日粮锌处理从第0天开始,RAC补充(300mg·steel·-1·d-1;Actogain 45,Zoetis)从第53天开始。在第4天、第48天和第67天,从所有牛身上采集血液、肝脏和肌肉(胸最长肌)样本。LOW处理从基因表达分析中删除,因为22个基因中有14个基因代表<3头公牛。数据分析采用SAS的ProcMixed,以固定效果的处理和公牛为实验单元;使用正交线性和二次对比陈述来比较处理。在第48天和第67天,补充锌的公牛的血浆锌比CON大,呈线性和二次趋势(P≤0.10)。在第48天时,SLC30A4的表达有二次下降的趋势(P<0.07),但由于处理没有其他差异。在第67天,几个参与锌转运和储存的基因(MTA1、SLC39A7、SLC39A8、SLC39 A9、SLC3 9A10、SLC3 9A13)减少(P≤0.08),表明生长增加影响细胞内锌转运和需求。
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Zinc supplementation and ractopamine hydrochloride impact gene expression of zinc transporters in finishing beef steers
Zinc is a trace mineral of interest for optimizing growth in feedlot cattle due to its roles in many physiological functions, including growth. Twenty-four Angus-cross steers (467 ± 13 kg) were used to assess the effects of supplemental Zn and ractopamine hydrochloride (RAC) on trace mineral concentrations and muscle gene expression. Four GrowSafe-equipped pens were randomly assigned to treatments (1 pen of six steers/treatment): 0 (CON), 60 (LOW), 120 (MED) or 180 (HI) mg supplemental Zn/kg DM (Availa-Zn, Zinpro). Dietary Zn treatments were initiated on d 0 and RAC supplementation (300 mg·steer·-1·d-1; Actogain45, Zoetis) began on d 53. Blood, liver and muscle (longissimus thoracis) samples were collected from all steers on d -4, 48, and 67. The LOW treatment was removed from gene expression analyses due to < 3 steers being represented for 14 of 22 genes. Data were analyzed using ProcMixed of SAS with the fixed effect of treatment and steer as the experimental unit; orthogonal linear and quadratic contrast statements were used to compare treatments. On d 48 and 67, there were linear and quadratic trends for plasma Zn to be greater in Zn-supplemented steers than CON (P ≤ 0.10). On d 48, there was a tendency for a quadratic decrease on the expression of SLC30A4 (P ≤ 0.07) but no other differences due to treatment. On d 67, several genes involved in Zn transport and storage (MTA1, SLC39A7, SLC39A8, SLC39A9, SLC39A10, SLC39A13) were decreased (P ≤ 0.08), suggesting increased growth influences intracellular Zn trafficking and demands.
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