'DNA Strider': a 'C' program for the fast analysis of DNA and protein sequences on the Apple Macintosh family of computers

DNA Strider is a new integrated DNA and Protein sequence analysis program written with the C language for the Macintosh Plus, SE and II computers. It has been designed as an easy to learn and use program as well as a fast and efficient tool for the day-to-day sequence analysis work. The program consists of a multi-window sequence editor and of various DNA and Protein analysis functions. The editor may use 4 different types of sequences (DNA, degenerate DNA, RNA and one-letter coded protein) and can handle simultaneously 6 sequences of any type up to 32.5 kB each. Negative numbering of the bases is allowed for DNA sequences. All classical restriction and translation analysis functions are present and can be performed in any order on any open sequence or part of a sequence. The main feature of the program is that the same analysis function can be repeated several times on different sequences, thus generating multiple windows on the screen. Many graphic capabilities have been incorporated such as graphic restriction map, hydrophobicity profile and the CAI plot- codon adaptation index according to Sharp and Li. The restriction sites search uses a newly designed fast hexamer look-ahead algorithm. Typical runtime for the search of all sites with a library of 130 restriction endonucleases is 1 second per 10,000 bases. The circular graphic restriction map of the pBR322 plasmid can be therefore computed from its sequence and displayed on the Macintosh Plus screen within 2 seconds and its multiline restriction map obtained in a scrolling window within 5 seconds.     

SILMUT: a computer program for the identification of regions suitable for silent mutagenesis to introduce restriction enzyme recognition sequences.

We describe a set of IBM-compatible computer programs designed to selectively identify the potential sites for silent mutagenesis within a target DNA sequence. This program is based on a novel strategy of identifying amino acid motifs compatible with each restriction site (BioTechniques 12:382-384, 1991). The programs can be used to identify the suitability for the introduction of any 6-base nucleic acid sequences, such as restriction enzyme sites in cassette mutagenesis strategies. The Table program generates a table of multiple amino acid motifs for each restriction enzyme, obtained by translating each unique recognition sequence in all three reading frames. The Silmut program, which utilizes the features of Table, will further identify the presence of a match between any amino acid motif of each restriction enzyme and the input target sequence. Minor manipulations of the data base files will enable the individual researcher to identify the potential for introduction of any 6-base sequences by silent mutagenesis.     

A set of Macintosh computer programs for the design and analysis of synthetic genes

Computer programs that can be used for the design of syntheticgenes and that are run on an Apple Macintosh computer are described.These programs determine nucleic acid sequences encoding aminoacid sequences. They select DNA sequences based on codon usageas specified by the user, and determine the placement of basechanges that can be used to create restriction enzyme siteswithout altering the amino acid sequence. A new algorithm forfinding restriction sites by translating the restriction endonucleasetarget sequence in all three reading frames and then searchingthe given peptide or protein amino acid sequence with theseshort restriction enzyme peptide sequences is described. Examplesare given for the creation of synthetic DNA sequences for thebovine prethrombin-2 and ribonuclease A genes Received on October 18, 1988; accepted on December 9, 1988     

Computer-aided gene design.

A computer program, which runs on MS-DOS personal computers, is described that assists in the design of synthetic genes coding for proteins. The goal of the program is the design of a gene which (i) contains as many unique restriction sites as possible and (ii) uses a specific codon usage. The gene designed according to the criteria above is (i) suitable for 'modular mutagenesis' experiments and (ii) optimized for expression. The program 'reverse-translates' protein sequences into degenerated DNA sequences, generates a map of potential restriction sites and locates sequence positions where unique restriction sites can be accommodated. The nucleic acid sequence is then 'refined' according to a specific codon usage to remove any degeneration. Unique restriction sites, if potentially present, can be 'forced' into the degenerated nucleic acid sequence by using 'priority codes' assigned to different restriction sequences.     

Microcomputer programs for DNA sequence analysis.

Computer programs are described which allow (a) analysis of DNA sequences to be performed on a laboratory microcomputer or (b) transfer of DNA sequences between a laboratory microcomputer and another computer system, such as a DNA library. The sequence analysis programs are interactive, do not require prior experience with computers and in many other respects resemble programs which have been written for larger computer systems (1-7). The user enters sequence data into a text file, accesses this file with the programs, and is then able to (a) search for restriction enzyme sites or other specified sequences, (b) translate in one or more reading frames in one or both directions in order to find open reading frames, or (c) determine codon usage in the sequence in one or more given reading frames. The results are given in table format and a restriction map is generated. The modem program permits collection of large amounts of data from a sequence library into a permanent file on the microcomputer disc system, or transfer of laboratory data in the reverse direction to a remote computer system.     

A program for the graphic representation and manipulation of DNA sequences

We have developed a program for the graphic representation andmanipulation of DNA sequences. The program (named CARTE fromthe French for ‘map’) is intended as a tool in theplanning and analysis of recombinant DNA experiments. DNA sequencesare represented as standard restriction maps, using any desiredcombination of restriction enzymes. Features of interest, suchas promoters or coding sequences, can be highlighted. The sequencecan be manipulated to mimic cloning, using deletions, insertionsor replacements at specified sites. This process is facilitatedby the simultaneous display of a graphic map of the entire sequence,a detailed picture of the work in progress, and a menu of functions. Received on November 17, 1986; accepted on March 12, 1987     

Los Alamos sequence analysis package for nucleic acids and proteins.

An interactive system for computer analysis of nucleic acid and protein sequences has been developed for the Los Alamos DNA Sequence Database. It provides a convenient way to search or verify various sequence features, e.g., restriction enzyme sites, protein coding frames, and properties of coded proteins. Further, the comprehensive analysis package on a large-scale database can be used for comparative studies on sequence and structural homologies in order to find unnoted information stored in nucleic acid sequences.     

核酸顺序的计算机辅助分析系统

本文介绍了一个在微机(IBM PC)上实现的、用于核酸顺序分析的计算机程序系统.该系统由三个层次和18个功能块构成,菜单及人机对话使得用户能较快地掌握和使用它.在编程中,采用了树结构、先进后出栈和稀疏矩阵等数据结构技巧,运用了Bayes法等统计分析方法,Kruskal算法和Floyd算法等一系列图论方法也被得到应用,这个软件系统的推出对于分子生物学研究具有一定的积极作用.     

A fast DNA sequence handling program for Apple II computer in BASIC and 6502 assembler

A fast general purpose DNA handling program has been developedin BASIC and machine language. The program runs on the AppleII plus or on the Apple IIe microcomputer, without additionalhardware except for disk drives and printer. The program allowsfile insertion and editing, translation into protein sequence,reverse translation, search for small strings and restrictionenzyme sites. The homology may be shown either as a comparisonof two sequences or through a matrix on screen. Two additionalfeatures are: (i) drawing restriction site maps on the printer;and (ii) simulating a gel electrophoresis of restriction fragmentsboth on screen and on paper. All the operations are very fast.The more common tasks are carried out almost instantly; onlymore complex routines, like finding homology between large sequencesor searching and sorting all the restriction sites in a longsequence require longer, but still quite acceptable, times (generallyunder 30 s). Received on October 25, 1984; accepted on December 7, 1984     

Fast analysis of DNA and protein sequence on Apple IIe: restriction sites search, alignment of short sequence and dot matrix analysis.

A fast restriction sites search algorithm using a quadruplet look-ahead feature has been written in 6502 assembly language code. The search time, tested on the sequence of pBR322, is 4.1 s/kilobase using a restriction site library including 112 specificities corresponding to a total site length of over 700 bases. The search for a short sequence (less than 36 bases) within a longer one (up to 9999 bases) with a given number of mismatches or gaps allowed has also been written in assembly language. Typical run time for the search of a 12 base sequence with 1, 2 or 3 gaps allowed are 6.2, 9.4 or 13.6 s/kilobase, respectively. The dot matrix analysis needs 7.5 minutes per square kilobase when using a stringency of 15 matched bases out of 25. A 7/21 matrix of two 500 amino acid proteins is obtained in 3 minutes. These three routines are included in DPSA, a general package of programs allowing manipulation and analysis of DNA and protein sequences.     

Spreadsheet-based program for alignment of overlapping DNA sequences.

Molecular biology laboratories frequently face the challenge of aligning small overlapping DNA sequences derived from a long DNA segment. Here, we present a short program that can be used to adapt Excel spreadsheets as a tool for aligning DNA sequences, regardless of their orientation. The program runs on any Windows or Macintosh operating system computer with Excel 97 or Excel 98. The program is available for use as an Excel file, which can be downloaded from the BioTechniques Web site. Upon execution, the program opens a specially designed customized workbook and is capable of identifying overlapping regions between two sequence fragments and displaying the sequence alignment. It also performs a number of specialized functions such as recognition of restriction enzyme cutting sites and CpG island mapping without costly specialized software.     

C.U.R.R.F. (Codon Usage regarding Restriction Finder): A Free Java?-Based Tool to Detect Potential Restriction Sites in Both Coding and Non-Coding DNA Sequences

The synthesis of complete genes is becoming a more and more popular approach in heterologous gene expression. Reasons for this are the decreasing prices and the numerous advantages in comparison to classic molecular cloning methods. Two of these advantages are the possibility to adapt the codon usage to the host organism and the option to introduce restriction enzyme target sites of choice. C.U.R.R.F. (Codon Usage regarding Restriction Finder) is a free Java(?)-based software program which is able to detect possible restriction sites in both coding and non-coding DNA sequences by introducing multiple silent or non-silent mutations, respectively. The deviation of an alternative sequence containing a desired restriction motive from the sequence with the optimal codon usage is considered during the search of potential restriction sites in coding DNA and mRNA sequences as well as protein sequences. C.U.R.R.F is available at http://www.zvm.tu-dresden.de/die_tu_dresden/fakultaeten/fakultaet_mathematik_und_naturwissenschaften/fachrichtung_biologie/mikrobiologie/allgemeine_mikrobiologie/currf .     

A Macintosh computer program for designing DNA sequences that code for specific peptides and proteins

A computer program (PINCERS) is described for use in the design of synthetic genes and mixed-probe DNA sequences. A protein sequence is reverse translated with generation of synonymous codons at each position producing a degenerate sequence. In order to locate potential restriction enzyme sites, the degenerate sequence is searched with a library of restriction enzymes for sites that utilize any combination of synonymous codons. These sites are indicated in a map so that they may be incorporated into the synthetic gene sequence. The program allows the user to select the appropriate codon usage table for the organism of interest and then to set a threshold usage frequency below which codons are not generated. PINCERS may also be used to assist in planning the synthesis of mixed-probe DNA sequences for cross-hybridization experiments. It can identify regions of specified length with the protein sequence that have the least overall degeneracy, thereby minimizing the number of probes to be synthesized and, therefore, maximizing the concentration of a given probe sequence.     

VIRS: A visual tool for identifying restriction sites in multiple DNA sequences

VIRS (A visual tool for identifying restriction sites in multiple DNA sequences) is an interactive web‐based program designed for restriction endonuclease cut sites prediction and visualization. It can afford to analyze multiple DNA sequences simultaneously and produce visual restriction maps with several useful options intended for users' customization. These options also perform in‐depth analysis of the restriction maps, such as providing virtual electrophoretic result for digested fragments. Different from other analytical tools, VIRS not only displays visual outputs but also provides the detailed properties of restriction endonucleases that are commercially available. All the information of these enzymes is stored in our internal database, which is updated monthly from the manufacturers' web pages. It is freely available online at http://bis.zju.edu.cn/virs/index.html . © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009     

Creating new restriction sites by silent changes in coding sequences

We present methods for identifying a useful type of DNA site--one that can be mutated to create a new restriction site within a coding region without changing the amino acid sequence. These "latent sites" are abundant--silent mutations creating one of 44 different 6-bp or 8-bp recognition sites were found at relatively high density, roughly one latent site per 9 bp, in the eleven genes tested. Our analysis suggests that site-directed mutagenesis can be used to refashion coding sequences at will for flexible analysis.     

Modification of DNA ends and detection of restriction enzyme recognition sequences in their ligated junctions

A program has been developed for the modelling of modificationsin DNA ends, for the construction of ligated junctions, andfor the analysis in these junctions of new restriction enzymerecognition sequences. This program allows the analysis of restrictionenzyme specifities in ligated junctions of cohesive or bluntDNA ends. Cohesive ends are considered in their natural configurationor after modification by possible blunt-ending procedures. Theprogram also allows the modelling of partial filling-in for5'-single-stranded ends. This program has proven useful forthe design of sequences with new restriction sites or to predictor confirm the sequence of junctions created by the ligationof modified ends. Received on October 28, 1987; accepted on November 23, 1987     

Computer support of DNA sequence analysis

The paper describes a package of APL-programs suited for the management and the analysis of DNA sequence data. Most of the application programs are related to experimental work in a DNA sequencing laboratory: Search for overlapping DNA fragments to construct complete DNA sequences; search for restriction sites; computing fragment patterns when cutting a DNA with restriction enzymes; plotting physical and genetic maps of a DNA, search for homologies as well as various counting procedures. More sophisticated programs are concerned with the prediction of RNA secondary structure and its graphical representation.     

用DREAM技术进行全长质粒快速定点突变

利用“设计限制酶辅助突变”(Designed Restriction Enzyme Assisted Mutagenesis, DREAM)进行全长质粒快速定点突变。根据突变位点附近氨基酸靶序列, 以简并密码子进行逆向推导, 这样在不改变氨基酸序列的前提下可以得到数目巨大的隐性突变体(Silent mutants), 这些突变体中包含大量的限制性酶切位点, 选择合适的酶切位点设计引物, 用Phusion超保真DNA聚合酶扩增全长质粒的DNA序列, 得到的PCR产物用T4多聚核苷酸激酶添加5￠磷酸基团后进行平末端连接, 转化大肠杆菌受体菌后用设计的酶切位点进行快速筛选。本研究用该方法成功地纠正了长约8 kb的质粒pcDNA3.1-pIgR中的突变碱基, 从而获得了多聚免疫球蛋白受体(pIgR)的野生型氨基酸序列。以上结果表明: 利用DREAM技术将限制性酶切位点引入目的基因而不改变目的蛋白质的氨基酸序列, 使突变体的筛选简单化; 配合使用高保真和高效率的Phusion DNA聚合酶可以进行长达8 kb的全长质粒的快速突变; 该方法无需使用定点突变试剂盒和特殊的受体菌, 同时避免了核酸杂交以及同位素的使用。     

The Gene Construction Kit: a new computer program for manipulating and presenting DNA constructs

The Gene Construction Kit is a new tool for manipulating and displaying DNA sequence information. Constructs can be displayed either graphically or as formatted sequence. Segments of DNA can be cut out with restriction enzymes and pasted into other sites. The program keeps track of staggered ends and notifies the user of incompatibilities and offers a choice of ligation options. Each segment of a construct can have its own defined thickness, pattern, direction and color. The sequence listing can be displayed in any font and style in user defined grouping. Nucleotide positions can be displayed as can restriction sites and protein sequences. The DNA can be displayed as either single- or double-stranded. Restriction sites can be readily marked. Alternative views of the DNA can be maintained and the history of the construct automatically stored. Gel electrophoresis patterns can be generated and can be used in cloning project design. Extensive comments can be stored with the construct and can be searched rapidly for key words. High quality illustrations showing multiple editable constructs with added graphics and text information can be generated for slides, posters or publication.