DeGenPrime provides robust primer design and optimization unlocking the biosphere.

IF 2.4 Q2 MATHEMATICAL & COMPUTATIONAL BIOLOGY

Bioinformatics advances Pub Date : 2024-03-14 eCollection Date: 2024-01-01 DOI:10.1093/bioadv/vbae044

Bryan Fulghum, Sophie H Tanker, Richard Allen White

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引用次数: 0

Abstract

Motivation: Polymerase chain reaction (PCR) is the world's most important molecular diagnostic with applications ranging from medicine to ecology. PCR can fail because of poor primer design. The nearest-neighbor thermodynamic properties, picking conserved regions, and filtration via penalty of oligonucleotides form the basis for good primer design.

Results: DeGenPrime is a console-based high-quality PCR primer design tool that can utilize MSA formats and degenerate bases expanding the target range for a single primer set. Our software utilizes thermodynamic properties, filtration metrics, penalty scoring, and conserved region finding of any proposed primer. It has degeneracy, repeated k-mers, relative GC content, and temperature range filters. Minimal penalty scoring is included according to secondary structure self-dimerization metrics, GC clamping, tri- and tetra-loop hairpins, and internal repetition. We compared PrimerDesign-M, DegePrime, ConsensusPrimer, and DeGenPrime on acceptable primer yield. PrimerDesign-M, DegePrime, and ConsensusPrimer provided 0%, 11%, and 17% yield, respectively, for the alternative iron nitrogenase (anfD) gene target. DeGenPrime successfully identified quality primers within the conserved regions of the T4-like phage major capsid protein (g23), conserved regions of molybdenum-based nitrogenase (nif), and its alternatives vanadium (vnf) and iron (anf) nitrogenase. DeGenPrime provides a universal and scalable primer design tool for the entire tree of life.

Availability and implementation: DeGenPrime is written in C++ and distributed under a BSD-3-Clause license. The source code for DeGenPrime is freely available on www.github.com/raw-lab/degenprime.

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DeGenPrime 提供强大的引物设计和优化功能，为生物圈解锁。

动机：聚合酶链反应（PCR）是世界上最重要的分子诊断方法，应用范围从医学到生态学。由于引物设计不当，PCR 可能会失败。最近邻热力学特性、挑选保守区域以及通过对寡核苷酸的惩罚进行过滤构成了良好引物设计的基础：DeGenPrime 是一种基于控制台的高质量 PCR 引物设计工具，它可以利用 MSA 格式和退化碱基扩大单个引物集的目标范围。我们的软件利用热力学特性、过滤度量、惩罚评分和保守区查找任何提议的引物。它具有变性、重复 k-mers、相对 GC 含量和温度范围过滤器。根据二级结构自嵌合度量、GC箝位、三环和四环发夹以及内部重复等因素进行最小惩罚评分。我们比较了 PrimerDesign-M、DegePrime、ConsensusPrimer 和 DeGenPrime 可接受的引物产量。PrimerDesign-M、DegePrime 和 ConsensusPrimer 对替代铁氮酶（anfD）基因靶标的产量分别为 0%、11% 和 17%。DeGenPrime 成功鉴定了 T4 类噬菌体主要帽状蛋白（g23）保守区、钼基氮酶（nif）保守区及其替代基因钒（vnf）和铁（anf）氮酶内的优质引物。DeGenPrime 为整个生命树提供了通用的、可扩展的引物设计工具：DeGenPrime 以 C++ 编写，根据 BSD-3 条款许可发布。DeGenPrime 的源代码可在 www.github.com/raw-lab/degenprime 上免费获取。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Bioinformatics advances

CiteScore

1.60

自引率

0.00%

发文量