多阶段病毒样颗粒合成训练,培养实验室经验最少的学生的科学自我效能感。

IF 1.1 Q3 BIOLOGY
Macie A Proctor-Roser, Marinca Faimau, Julianne Peabody, Krystal R Charley, Bryce Chackerian, Naomi R Lee
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引用次数: 0

摘要

科学自我效能感描述了个体对自己完成特定科学实践的能力的信心。自我效能感是与STEM领域的成功和坚持相关的一个因素。本协议的目的是为研究实验室提供有效的方法来教学和指导分子生物学方面的新生,特别是在噬菌体衍生的病毒样颗粒(VLPs)的合成方面。VLPs是一种多价纳米颗粒结构,可用于多种生物医学应用,包括疫苗和药物输送平台。在大多数实验室环境中,使用细菌表达系统生产噬菌体VLPs是可行的。然而,对于新研究人员来说,合成和表征VLPs可能具有挑战性,特别是那些缺乏实验室经验或缺乏分子生物学基础知识的研究人员。为了解决这个问题,我们实施了一个多阶段的培训方案来培训VLP合成、纯化和表征方面的新学生。该模型针对大量高中生和本科生进行了优化。通过实施这种多阶段的方法,学生们对自己执行特定任务的能力的信心增加了,并且可能增强了他们在STEM中的持久性。•新学员多阶段培养模式。•提高科学自我效能的培训阶段。•成功的点对点培训。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Multi-phase Training in Virus-Like Particle Synthesis to Foster Science Self-efficacy in Students With Minimal Laboratory Experience.

Multi-phase Training in Virus-Like Particle Synthesis to Foster Science Self-efficacy in Students With Minimal Laboratory Experience.

Multi-phase Training in Virus-Like Particle Synthesis to Foster Science Self-efficacy in Students With Minimal Laboratory Experience.

Multi-phase Training in Virus-Like Particle Synthesis to Foster Science Self-efficacy in Students With Minimal Laboratory Experience.

Science self-efficacy describes the confidence individuals have in their ability to accomplish specific scientific practices. Self-efficacy is one factor linked to success and persistence within STEM fields. The purpose of this protocol is to provide research laboratories with effective methods for teaching and mentoring new students in molecular biology, specifically in the synthesis of virus-like particles (VLPs) derived from bacteriophages. VLPs are multivalent nanoparticle structures that can be utilized in multiple biomedical applications, including platforms for vaccine and drug delivery. Production of bacteriophage VLPs using bacterial expression systems is feasible in most laboratory settings. However, synthesizing and characterizing VLPs can be challenging for new researchers, especially those with minimal laboratory experience or a lack of foundational knowledge in molecular biology. To address this, a multi-phase training protocol was implemented to train new students in VLP synthesis, purification, and characterization. This model was optimized for training numerous high school and undergraduate students. By implementing this multi-phase methodology, the students' confidence in their abilities to perform specific tasks increased and likely enhanced their persistence in STEM. Key features • Multi-phase training model for new students. • Training phases that build to increase science self-efficacy. • Successful peer-to-peer training.

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