Comparative Assessment of Mitochondria Isolation Buffers for Optimizing Tissue-Specific Yields in Buffalo.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-10-08 DOI:10.1159/000541733

Sweta Kumari, E M Sadeesh

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引用次数: 0

Abstract

Introduction: Mitochondrial studies are crucial for assessing livestock health and performance. While extensive research has been done on cattle and pigs, the influence of mitochondria in Indian buffalo remains unexplored. Therefore, in order to understand functions of mitochondria, their energy-related processes, or any additional mitochondrial traits in buffaloes, it is imperative to isolate high-yield mitochondria with purity and functionality. Mitochondria are extracted by few conventional buffers. These buffers were previously characterized for their effectiveness in isolating mitochondria from rodent and human tissues. Therefore, the present study is to assess the performance of mitochondria isolation buffers specifically in buffalo tissues.

Methods: The study involved isolation of mitochondria from four different tissues, i.e., liver, brain, heart and muscles of slaughtered buffalo (n = 3), using: (i) Tris-Mannitol buffer (ii) Tris-Sucrose buffer, and (iii) MOPS-Sucrose buffer. Buffer efficiency in preserving high fidelity during mitochondria isolation was assessed by comparison with Cayman's MitoCheck® Mitochondrial Isolation Kit (control). Further mitochondrial purity and functionality was assessed through comparative estimation of protein concentration and marker enzyme assays, respectively.

Results: Our results revealed insights into the suitability of specific buffer for functional mitochondria isolation from specific type of buffalo tissue. Notably for obtaining high quality functional mitochondria from buffalo, MOPS-Sucrose buffer appeared optimal for soft tissues (liver and brain), while Tris-Mannitol buffer was efficient for hard tissues (muscles and heart).

Conclusions: Thus, our research highlights the influence of buffer composition and tissue-specific variations in buffer effectiveness on mitochondrial activity in different tissues, leading to improved mitochondrial isolation in buffalo.

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水牛线粒体分离缓冲液优化组织特异性产量的比较评估

简介：线粒体研究对于评估家畜的健康和性能至关重要。虽然对牛和猪进行了广泛的研究，但线粒体对印度水牛的影响仍有待探索。因此，为了了解水牛线粒体的功能、与能量相关的过程或其他线粒体特征，必须分离出纯度高、功能强的高产线粒体。线粒体是通过一些传统的缓冲液提取的。这些缓冲液以前在从啮齿动物和人体组织中分离线粒体的有效性方面进行过表征。因此，本研究旨在评估线粒体分离缓冲液在水牛组织中的性能：研究涉及从屠宰水牛（n= 3）的肝脏、大脑、心脏和肌肉等四种不同组织中分离线粒体，使用的缓冲液包括：(i) Tris-Mannitol 缓冲液；(ii) Tris-Sucrose 缓冲液；(iii) MOPS-Sucrose 缓冲液。通过与 Cayman 的 MitoCheck® 线粒体分离试剂盒（对照）比较，评估了缓冲液在线粒体分离过程中保持高保真度的效率。此外，线粒体的纯度和功能分别通过蛋白质浓度和标记酶测定的比较评估进行了评估：结果：我们的研究结果揭示了从特定类型的水牛组织中分离功能线粒体时特定缓冲液的适用性。值得注意的是，MOPS-蔗糖缓冲液最适用于从水牛的软组织（肝脏和大脑）中获得高质量的功能线粒体，而 Tris-Mannitol 缓冲液则适用于硬组织（肌肉和心脏）：因此，我们的研究强调了缓冲液成分和缓冲液有效性的组织特异性变化对不同组织线粒体活性的影响，从而改进了水牛的线粒体分离。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464