User:Ron Milo: Difference between revisions
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and many many other useful but too often hard to find numbers. Each property/number includes a reference, and other relevant information. | and many many other useful but too often hard to find numbers. Each property/number includes a reference, and other relevant information. | ||
We currently have a very rudimentary | We currently have a very rudimentary format based on the google documents collaboration tool (basically an excel-like sheet), but we hope to add graphical user interfaces with querying capabilities in the near future. | ||
Please check out the current version of the [http://spreadsheets.google.com/pub?key=pLEc8e_GzXWESQ8ZpQMXFYQ BioNumbers database]. | Please check out the current version of the [http://spreadsheets.google.com/pub?key=pLEc8e_GzXWESQ8ZpQMXFYQ BioNumbers database]. | ||
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Numbers are absolute and immutable entities. Biology is built on adaptation and flexibility. It is thus no surprise that concrete values for many biological properties are hard to find. Most quantitative properties in biology depend on the context or the method of measurement, the organism and the cell type. Yet it is clear that characteristic numbers and ranges are very useful tools to have available. The aim of this database is to be a repository for useful biological numbers, that gives a concrete value while supplying the relevant reference and comments that depict its domain of validity. We hope that you and others will find it useful and help to expand it and make it more accurate. | Numbers are absolute and immutable entities. Biology is built on adaptation and flexibility. It is thus no surprise that concrete values for many biological properties are hard to find. Most quantitative properties in biology depend on the context or the method of measurement, the organism and the cell type. Yet it is clear that characteristic numbers and ranges are very useful tools to have available. The aim of this database is to be a repository for useful biological numbers, that gives a concrete value while supplying the relevant reference and comments that depict its domain of validity. We hope that you and others will find it useful and help to expand it and make it more accurate. | ||
== Contribute a BioNumber == | |||
It is really easy. You can send us an email to be able to edit the source database. Alternatively you can just your number [http://openwetware.org/wiki/User:Ronmilo_AddBioNumberForm here] and we will put it in the database with an acknowledgment of your contribution. | |||
== Where did it come from == | == Where did it come from == | ||
The BioNumbers database started as a joint effort by Ron Milo, Paul Jorgensen and Mike Springer at the systems biology department in Harvard. The effort was inspired by a comparison of values of key properties in bacteria, yeast and a mammalian cell in Uri Alon’s book – “Introduction to systems biology”. It is our hope that the database will facilitate quantitative analysis and reasoning in a field of research where numbers tend to be “soft” and difficult to vouch for. | The BioNumbers database started as a joint effort by Ron Milo, Paul Jorgensen and Mike Springer at the systems biology department in Harvard. The effort was inspired by a comparison of values of key properties in bacteria, yeast and a mammalian cell in Uri Alon’s book – “Introduction to systems biology”. It is our hope that the database will facilitate quantitative analysis and reasoning in a field of research where numbers tend to be “soft” and difficult to vouch for. | ||
== Dedicated databases with focused useful biological numbers == | == Dedicated databases with focused useful biological numbers == | ||
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== our "wish list" of bionumbers (can you help find them?) == | == our "wish list" of bionumbers (can you help find them?) == | ||
== A number you would like to see on BioNumbers? == | |||
Do you have a secret "wish list" of biological numbers you would like to know? Please tell them to us and we would try to find them and incorporate them as soon as possible. Go to [http://openwetware.org/wiki/User:Ronmilo_AddBioNumberForm add wishful number]. | |||
== Some interesting numbers from our database == | == Some interesting numbers from our database == | ||
[http://openwetware.org/wiki/User:Ronmilo_PersonalWebsite Ron Milo Website] | [http://openwetware.org/wiki/User:Ronmilo_PersonalWebsite Ron Milo Website] | ||
[http://openwetware.org/wiki/User:Ronmilo_bioNumbersHome bioNumbers highlights] | [http://openwetware.org/wiki/User:Ronmilo_bioNumbersHome bioNumbers highlights] | ||
Revision as of 19:40, 11 July 2007
BioNumbers - the database of useful biological numbers
Current version of BioNumbers database.
What is BioNumbers?
BioNumbers is a collaborative community effort to establish a database of useful biological numbers.
For example:
- How many ribosomes or mRNAs are in a cell (e.coli, yeast, mammalian or any other) ?
- The volume of different cells and organelles
- Concentrations and absolute numbers of ions and metabolites
- Generation times of different organisms
and many many other useful but too often hard to find numbers. Each property/number includes a reference, and other relevant information. We currently have a very rudimentary format based on the google documents collaboration tool (basically an excel-like sheet), but we hope to add graphical user interfaces with querying capabilities in the near future.
Please check out the current version of the BioNumbers database.
Some more explanation on what it is and where is it going to can be found below.
To join as a collaborator and contribute your favorite numbers to this effort please send an email to ron_milo@hms.harvard.edu or mike_springer@hms.harvard.edu or paul_jorgensen@hms.harvard.edu.
Motivation
Numbers are absolute and immutable entities. Biology is built on adaptation and flexibility. It is thus no surprise that concrete values for many biological properties are hard to find. Most quantitative properties in biology depend on the context or the method of measurement, the organism and the cell type. Yet it is clear that characteristic numbers and ranges are very useful tools to have available. The aim of this database is to be a repository for useful biological numbers, that gives a concrete value while supplying the relevant reference and comments that depict its domain of validity. We hope that you and others will find it useful and help to expand it and make it more accurate.
Contribute a BioNumber
It is really easy. You can send us an email to be able to edit the source database. Alternatively you can just your number here and we will put it in the database with an acknowledgment of your contribution.
Where did it come from
The BioNumbers database started as a joint effort by Ron Milo, Paul Jorgensen and Mike Springer at the systems biology department in Harvard. The effort was inspired by a comparison of values of key properties in bacteria, yeast and a mammalian cell in Uri Alon’s book – “Introduction to systems biology”. It is our hope that the database will facilitate quantitative analysis and reasoning in a field of research where numbers tend to be “soft” and difficult to vouch for.
Dedicated databases with focused useful biological numbers
- BRENDA - a database of enzyme properties
- Animal Genome Size Database - a database of animal genome sizes, chromosomes numbers etc.enzyme properties
our "wish list" of bionumbers (can you help find them?)
A number you would like to see on BioNumbers?
Do you have a secret "wish list" of biological numbers you would like to know? Please tell them to us and we would try to find them and incorporate them as soon as possible. Go to add wishful number.
