Cardiff School of Biosciences, Cardiff University, Museum Avenue, Cardiff, CF10 3AX, United Kingdom.
Plant Methods. 2012 Oct 13;8(1):43. doi: 10.1186/1746-4811-8-43.
A large number of different plant lines are produced and maintained in a typical plant research laboratory, both as seed stocks and in active growth. These collections need careful and consistent management to track and maintain them properly, and this is a particularly pressing issue in laboratories undertaking research involving genetic manipulation due to regulatory requirements. Researchers and PIs need to access these data and collections, and therefore an easy-to-use plant-oriented laboratory information management system that implements, maintains and displays the information in a simple and visual format would be of great help in both the daily work in the lab and in ensuring regulatory compliance.
Here, we introduce 'Phytotracker', a laboratory management system designed specifically to organise and track plasmids, seeds and growing plants that can be used in mixed platform environments. Phytotracker is designed with simplicity of user operation and ease of installation and management as the major factor, whilst providing tracking tools that cover the full range of activities in molecular genetics labs. It utilises the cross-platform Filemaker relational database, which allows it to be run as a stand-alone or as a server-based networked solution available across all workstations in a lab that can be internet accessible if desired. It can also be readily modified or customised further. Phytotracker provides cataloguing and search functions for plasmids, seed batches, seed stocks and plants growing in pots or trays, and allows tracking of each plant from seed sowing, through harvest to the new seed batch and can print appropriate labels at each stage. The system enters seed information as it is transferred from the previous harvest data, and allows both selfing and hybridization (crossing) to be defined and tracked. Transgenic lines can be linked to their plasmid DNA source. This ease of use and flexibility helps users to reduce their time needed to organise their plants, seeds and plasmids and to maintain laboratory continuity involving multiple workers.
We have developed and used Phytotracker for over five years and have found it has been an intuitive, powerful and flexible research tool in organising our plasmid, seed and plant collections requiring minimal maintenance and training for users. It has been developed in an Arabidopsis molecular genetics environment, but can be readily adapted for almost any plant laboratory research.
在典型的植物研究实验室中,会生产和维护大量不同的植物品系,包括作为种子库存和处于活跃生长状态的植物。这些收藏需要精心且一致的管理,以正确地跟踪和维护它们,这在从事涉及遗传操作的研究的实验室中是一个特别紧迫的问题,因为这涉及监管要求。研究人员和负责人需要访问这些数据和收藏,因此,一个易于使用的面向植物的实验室信息管理系统,以简单直观的格式实现、维护和显示信息,将在实验室的日常工作中以及确保法规遵从性方面提供极大的帮助。
在这里,我们介绍了“Phytotracker”,这是一个专门设计用于组织和跟踪质粒、种子和可用于混合平台环境的生长植物的实验室管理系统。Phytotracker 的设计主要考虑了用户操作的简单性和安装及管理的便利性,同时提供了涵盖分子遗传学实验室所有活动范围的跟踪工具。它利用跨平台的 Filemaker 关系数据库,可以作为独立的解决方案运行,也可以作为服务器为基础的网络解决方案在实验室的所有工作站上运行,如果需要,还可以通过互联网访问。它还可以很容易地进一步修改或定制。Phytotracker 为在培养皿或托盘内生长的质粒、种子批次、种子库存和植物提供编目和搜索功能,并允许从播种种子开始跟踪每一株植物,直至收获新的种子批次,并可以在每个阶段打印相应的标签。该系统会在从先前收获数据中转移种子信息时输入信息,并允许定义和跟踪自交和杂交(杂交)。转基因系可以与其质粒 DNA 源相关联。这种易用性和灵活性有助于用户减少组织植物、种子和质粒所需的时间,并维持涉及多名工作人员的实验室连续性。
我们已经开发并使用了 Phytotracker 超过五年,发现它是一个直观、强大且灵活的研究工具,用于组织我们的质粒、种子和植物收藏,用户只需进行最少的维护和培训。它是在拟南芥分子遗传学环境中开发的,但可以很容易地适应几乎任何植物实验室研究。
