which is an international organization that promotes open-access in the field of bioinformatics by providing free and open resources for research, development and education so that such resources can be further developed. The Organization has a Web-based collaborative development environment (CDE) for bioinformatics projects that are developed in the spirit of freedom and openness e.g., a program is distributed under an OSI-approved license.

The website hosting is done by Bioinformatics Organization

^* Fasta and other formats not accepted.

^*'' Fasta and other formats not accepted.''

Result may be erroneous if user had input wrong DNA sequence i.e. instead of using ATGC other characters are used then program will run but user will not get desired output. So, it is recommended to use only Plain sequence format ^* like:

Result may be erroneous if user had input wrong DNA sequence i.e. instead of using ATGC other characters are used then program will run but user will not get desired output. So, it is recommended to use only ''Plain sequence format"

 * like:

Result may be erroneous if user had input wrong DNA sequence i.e. instead of using ATGC other characters are used then program will run but user will not get desired output. So, it is recommended to use only ''Plain sequence format ^*'' like:

Result may be erroneous if user had input wrong DNA sequence i.e. instead of using ATGC other characters are used then program will run but user will not get desired output. So, it is recommended to use only Plain sequence format ^* like:

Result may be erroneous if user had input wrong DNA sequence i.e. instead of using ATGC other characters are used then program will run but user will not get desired output. So, it is recommended to use only Plain sequence format ^* like:

Result may be erroneous if user had input wrong DNA sequence i.e. instead of using ATGC other characters are used then program will run but user will not get desired output. So, it is recommended to use only %red& Plain sequence format ^* like:

Result may be erroneous if user had input wrong DNA sequence i.e. instead of using ATGC other characters are used then program will run but user will not get desired output. So, it is recommended to use only Plain sequence format ^* like:

^*Fasta and other formats not accepted.

Result may be erroneous if user had input wrong DNA sequence i.e. instead of using ATGC other characters are used then program will run but user will not get desired output. So, it is recommended to use only Plain sequence format ^X like:

ACAAGATGCCATTGTCCCCCGGCCTCCTGCTGCTGCTGCTCTCCGGGGCCACGGCCACCGCTGCCCTGCC CCTGGAGGGTGGCCCCACCGGCCGAGACAGCGAGCATATGCAGGAAGCGGCAGGAATAAGGAAAAGCAGC CTCCTGACTTTCCTCGCTTGGTGGTTTGAGTGGACCTCCCAGGCCAGTGCCGGGCCCCTCATAGGAGAGG AAGCTCGGGAGGTGGCCAGGCGGCAGGAAGGCGCACCCCCCCAGCAATCCGCGCGCCGGGACAGAATGCC CTGCAGGAACTTCTTCTGGAAGACCTTCTCCTCCTGCAAATAAAACCTCACCCATGAATGCTCACGCAAG TTTAATTACAGACCTGAA

^X- Fasta and other formats not accepted.

GAUTAM ORF FINDER is a bioinformatics tool developed in 2008 to find Orf present in any DNA sequence. Methodology adopted for completion of the project was empirical and analytical. As biology has increasingly turned into a data-rich science, the need for storing and communicating large data sets has grown tremendously. We know that there are various bioinformatics tools present across web to find ORF. But they are not so user friendly. As it is not easy for everyone to handle these bioinformatics tools. So, keeping all these things in consideration this tool was developed in which all programing and coding was prior done by me and no such technical knowledge is required to handle the tool. The user has to simply input the DNA sequence and can easily get desired output within seconds.

GAUTAM ORF FINDER is a bioinformatics tool developed in 2008 to find Orf present in any DNA sequence. Methodology adopted for completion of the project was empirical and analytical. As biology has increasingly turned into a data-rich science, the need for storing and communicating large data sets has grown tremendously. We know that there are various bioinformatics tools present across web to find ORF. But they are not so user friendly. As it is not easy for everyone to handle these bioinformatics tools. So, keeping all these things in consideration this tool was developed in which all the work was prior done by me and no such technical knowledge is required to handle the tool. The user has to simply input the DNA sequence and can easily get desired output within seconds.

GAUTAM ORF FINDER is a bioinformatics tool developed in 2008 to find Orf present in any DNA sequence. Methodology adopted for completion of the project was empirical and analytical. As biology has increasingly turned into a data-rich science, the need for storing and communicating large data sets has grown tremendously. We know that there are various bioinformatics tools present across web to find ORF. But they are not so user friendly. As it is not easy for everyone to handle these bioinformatics tools. So, keeping all these things in consideration this tool was developed in which all the work was prior done by me and no such technical knowledge is required to handle the tool. The user has to simply input the DNA sequence and can easily get desired output within seconds.

GAUTAM ORF FINDER

is a bioinformatics tool developed in 2008 to find Orf present in any DNA sequence. Methodology adopted for completion of the project was empirical and analytical. As biology has increasingly turned into a data-rich science, the need for storing and communicating large data sets has grown tremendously. We know that there are various bioinformatics tools present across web to find ORF. But they are not so user friendly. As it is not easy for everyone to handle these bioinformatics tools. So, keeping all these things in consideration this tool was developed in which all the work was prior done by me and no such technical knowledge is required to handle the tool. The user has to simply input the DNA sequence and can easily get desired output within seconds.

which is an international organization that promotes open-access in the field of bioinformatics by providing free and open resources for research, development and education so that such resources can be further developed. The Organization has a Web-based collaborative development environment (CDE) for bioinformatics projects that are developed in the spirit of freedom and openness e.g., a program is distributed under an OSI-approved license. http://opensource.org/licenses/

The website hosting is done by Bioinformatics Organization

The website hosting is done by Bioinformatics Organization

http://www.bioinformatics.org/wiki/Bioinformatics_Organization which is an international organization that promotes open-access in the field of bioinformatics by providing free and open resources for research, development and education so that such resources can be further developed. The Organization has a Web-based collaborative development environment (CDE) for bioinformatics projects that are developed in the spirit of freedom and openness e.g., a program is distributed under an OSI-approved license http://opensource.org/licenses/

http://www.bioinformatics.org/wiki/Bioinformatics_Organization which is an international organization that promotes open-access in the field of bioinformatics by providing free and open resources for research, development and education so that such resources can be further developed. The Organization has a Web-based collaborative development environment (CDE) for bioinformatics projects that are developed in the spirit of freedom and openness e.g., a program is distributed under an OSI-approved license http://opensource.org/licenses/

Bioinformatics_Organization? which is an international organization that promotes open-access in the field of bioinformatics by providing free and open resources for research, development and education so that such resources can be further developed. The Organization has a Web-based collaborative development environment (CDE) for bioinformatics projects that are developed in the spirit of freedom and openness (e.g., a program is distributed under an OSI-approved license http://opensource.org/licenses/).

The website hosting is done by Bioinformatics Organization Bioinformatics_Organization> which is an international organization that promotes open-access in the field of bioinformatics by providing free and open resources for research, development and education so that such resources can be further developed. The Organization has a Web-based collaborative development environment (CDE) for bioinformatics projects that are developed in the spirit of freedom and openness (e.g., a program is distributed under an OSI-approved license http://opensource.org/licenses/).

 Bioinformatics_Organization> which is an international organization that promotes open-access in the field of bioinformatics by providing free and open resources for research, development and education so that such resources can be further developed. The Organization has a Web-based collaborative development environment (CDE) for bioinformatics projects that are developed in the spirit of freedom and openness (e.g., a program is distributed under an OSI-approved license http://opensource.org/licenses/).

The website hosting is done by Bioinformatics Organization

 Bioinformatics_Organization> which is an international organization that promotes open-access in the field of bioinformatics by providing free and open resources for research, development and education so that such resources can be further developed. The Organization has a Web-based collaborative development environment (CDE) for bioinformatics projects that are developed in the spirit of freedom and openness (e.g., a program is distributed under an OSI-approved license  http://opensource.org/licenses/).

Website hosting:

The website hosting is done by Bioinformatics Organization http://www.bioinformatics.org/wiki/Bioinformatics_Organization which is an international organization that promotes open-access in the field of bioinformatics by providing free and open resources for research, development and education so that such resources can be further developed. The Organization has a Web-based collaborative development environment (CDE) for bioinformatics projects that are developed in the spirit of freedom and openness (e.g., a program is distributed under an OSI-approved license http://opensource.org/licenses/).

Website hosting:

The website hosting is done by Bioinformatics Organization which is an international organization that promotes open-access in the field of bioinformatics by providing free and open resources for research, development and education so that such resources can be further developed. The Organization has a Web-based collaborative development environment (CDE) for bioinformatics projects that are developed in the spirit of freedom and openness (e.g., a program is distributed under an OSI-approved license http://opensource.org/licenses/).

GAUTAM ORF FINDER is a bioinformatics tool developed in 2008 to find Orf present in any DNA sequence. Methodology adopted for completion of the project was empirical and analytical. As biology has increasingly turned into a data-rich science, the need for storing and communicating large data sets has grown tremendously. We know that there are various bioinformatics tools present across web to find ORF. But they are not so user friendly. As it is not easy for everyone to handle these bioinformatics tools. So, keeping all these things in consideration this tool was developed in which all the work was prior done by me and no such technical knowledge is required to handle the tool. The user has to simply input the DNA sequence and can easily get desired output within seconds.

Software Limitation:

Result may be erroneous if user had input wrong DNA sequence i.e. instead of using ATGC other characters are used then program will run but user will not get desired output.

Website hosting:

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GAUTAM ORF FINDER is a bioinformatics tool developed in 2008 to find Orf present in any DNA sequence. Methodology adopted for completion of the project was empirical and analytical. As biology has increasingly turned into a data-rich science, the need for storing and communicating large data sets has grown tremendously. We know that there are various bioinformatics tools present across web to find ORF. But they are not so user friendly. As it is not easy for everyone to handle these bioinformatics tools. So, keeping all these things in consideration this tool was developed in which all the work was prior done by me and no such technical knowledge is required to handle the tool. The user has to simply input the DNA sequence and can easily get desired output within seconds.

Software Limitation: Result may be erroneous if user had input wrong DNA sequence i.e. instead of using ATGC other characters are used then program will run but user will not get desired output.