Team:UCSF/Human Practices
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Latest revision as of 20:58, 28 October 2008
Patents and iGEM
In the course of studying
how to manipulate gene expression by targeting heterochromatin, we came upon an
interesting patent owned by Sangamo Biosciences (Richmond, CA): Modulation of Gene Expression Using
Localization Domains (Wolffe A., et
al. US Patent 6,919,204 B2). The
broad claims of this patent encompass:
“methods
and compositions for regulating gene expression. In particular, methods and compositions comprising
localization domains, and fusions of localization domains with DNA binding
domains and, optionally regulatory domains.”
Would our synthetic
chromatin project fall under this definition?
Sangamo is best known for
developing technology to generate customized DNA binding
domains—zinc-finger proteins that can be targeted to anywhere in the
genome. Indeed, Sangamo’s iron-clad IP protection was highlighted in a recent
Nature news and views discussing proprietary vs. open source customized
zinc-fingers (“The Fate of Fingers”, September 2008).
Would the Sangamo
“Modulation…” patent discourage others from working on developing new methods
in the area of gene expression control?
This possibility led us to think about patents in general, and what they
mean for Synthetic Biology.
First, why do we need patents?
Patents provide an incentive
to innovate by guaranteeing the inventor sole rights to his/her invention for a
set period of time Furthermore, patents require public disclosure, which
benefits everyone after the patent period expires. Compare this to a trade
secret—the public may never know the exact formulation of Coca Cola.
However, patents could be
detrimental to the public if they are too broad in scope. If another person without rights to the
patent wants to innovate and further develop an idea the incentive to innovate
is deterred by having to ‘pay-to-play.’
Worse yet, there are ‘patent-trolls’ that accumulate or file a blizzard
of anticipatory patents that can then be used to hold legitimate innovators
hostage.
How does this relate to
Synthetic Biology? The iGEM ideal is Open Source: a community sharing parts,
devices, systems, and ideas. BioBricks are the best example of this
spirit.
But what does this mean in regard
to patent law? In other words,
could a Biobricked device be patented?
Should we allow this, or should a device made from open source parts not
be ‘patentable?’
Further research led me to a
page in the openwetware legal archive:
“1.
You are free to modify, improve, and use all BioBrick parts, in systems with
other BioBricks parts or non-BioBrick genetic material.
2. If you release a product, commercially or
otherwise, that contains BioBrick parts or was produced using BioBrick parts,
then you must make freely available the information about all BioBrick parts
used in the product, or in producing the product, both for preexisting BioBrick
parts and any new or improved BioBrick parts. You do not need to release
information about any non-BioBrick material used in the system.
3.
By using BioBrick parts, you agree to not encumber the use of BioBrick parts,
individually or in combination, by others. “
I fully agree with these
statements. Open source parts that
are further developed should be ‘patentable’ whereas the original parts used
must remain open source. However,
this begs the question as to how open source Biobricked parts really are. Who
really owns the open source part? An employee generally agrees to give the
University or Company full ownership over all things made and invented in their
lab. In other words, what if the University owner hasn't given permission? This
could be a controversial issue for the Registry as the field of synthetic
biology moves forward. At minimum, it seems that common sense dictates patents
should never interfere with academic research. Could there be some sort of
exemption for use of parts in the absence of commercial intent?
--Jimmy Huang
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