Public Health Emergency - Leading a Nation Prepared
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Nucleic acid synthesis technologies are fundamental for biomedical research and allow for the generation and modification of some viruses, bacteria, and toxins. Such technologies serve as tools to advance important research to understand such agents better as well as in developing medical countermeasures. Additionally, dsDNA synthesis could pose biosecurity risks, including enabling individuals with ill intent or who are not authorized to possess Select Agents and Toxins (or, for international orders, items listed on the CCL) to obtain them using materials ordered from providers of synthetic dsDNA. The Guidance sets forth recommended baseline standards for the gene and genome synthesis industry and other providers of synthetic dsDNA, regarding the screening of orders, to ensure they are filled in compliance with Select Agent Regulations (SAR) and CCL and to encourage best practices in addressing biosecurity concerns associated with the potential misuse of their products to bypass existing regulatory controls. The U.S. Government – after receiving feedback from the scientific community and synthetic biology industry stakeholders – developed the Guidance to align with providers’ existing protocols, to be implemented without unnecessary cost, and to be globally extensible for U.S.-based providers operating abroad and for international providers. The Guidance recommends synthetic dsDNA providers perform customer screening, sequence screening, and follow-up screening to verify the legitimacy of the customer, the principal user, and the end-use of the sequence. The following questions address how the Guidance could be modified to identify nucleic acid sequences that pose biosecurity risks for follow-up screening, if deemed necessary. Please include explanations, examples, or potential benefits and drawbacks in your responses.
Are there potential benefits and/or downsides to screening for sequences not on the Select Agents and Toxins or CCL?
Should the scope of the Guidance be broadened beyond synthetic dsDNA? If so, how? Should the scope of the Guidance be broadened to other synthetic nucleic acids? If so, what synthetic sequences? Or, should the scope of the Guidance be broadened beyond providers of synthetic dsDNA? If so, to whom? Why?
Should the scope of the Guidance be narrowed, either in terms of types of sequences screened or the audience of the Guidance? Why or why not?
The Guidance currently suggests follow-up screening for synthetic dsDNA orders, with the greatest percent identity (Best Match), over each 200 nucleic acid segment, and the corresponding amino acid sequence, to regulated Select Agents and Toxins and, as applicable, the CCL. The following questions seek to understand whether the Guidance should be modified from a technical perspective.
Should the Guidance be further clarified or otherwise updated to identify embedded “sequences of concern” within larger-length orders? If so, how?
Are there approaches other than the Best Match, using the Basic Local Alignment Search Tool (BLAST) or other local sequence alignment tools, to check against the National Institutes of Health’s (HIH’s) GenBank database that should be considered? What are the benefits and/or downsides of those approaches compared with the current Guidance?
Are there other approaches (e.g., predictive bioinformatics tools) that could be utilized to identify sequences of concern for follow-up screening?
Are there other considerations that would be appropriate (e.g., batch size) in decisions about whether to conduct follow-up screening, such as oligonucleotide orders in quantities that indicate they are intended for use in assembling a pathogen genome directly?
The Guidance recommends that dsDNA orders be screened for sequences derived from or encoding Select Agents and Toxins and, for international customers, dsDNA derived from or encoding items on the CCL. The U.S. Government recognizes that there may be concerns that synthetic dsDNA sequences not unique to Select Agents and Toxins or CCL agents may also pose a biosecurity risk. The U.S. Government also recognizes that many providers have already instituted measures to address these potential concerns. The ongoing development of best practices in this area is commendable and encouraged, particularly considering continued advances in DNA sequencing and synthesis technologies and the accelerated rate of sequence submissions to public databases such as the NIH's GenBank. However, owing to the complexity of determining if pathogenicity and other material properties pose a biosecurity risk and to the fact that many such agents are not currently encompassed by regulations in the United States, generating a comprehensive list of such agents to screen against was not feasible when the Guidance was released in 2010. The following questions pertain to how the biosecurity risks arising from the potential misuse of genetic sequences should be assessed.
Is maintenance and use of broader list-based approach(es) now feasible? If so, how might this approach be realized? If not, what are major road blocks to implementing this approach? Since the release of the original Guidance, have providers or other entities developed customized database approaches, or approaches that evaluate the biological risk associated with non-Select Agent and Toxin sequences or, for international orders, sequences not associated with items on the CCL? If so, how effective have they been, and have there been any negative impacts?
Are there other security or screening approaches (e.g., risk assessments, virulence factor databases) that would be able to determine potential biosecurity risks arising from the use of nucleic acid synthesis technologies? What are the potential opportunities and limitations of these approaches?
Given that nucleic acid sequences not encompassed by SAR and the CCL may pose biosecurity risks, are there alternative approaches to the screening mechanism that could be established? If such approaches have been established, how effective have they been, and have there been any negative impacts?
The Guidance suggests that if either customer screening or sequence screening raises any concerns, providers should perform follow-up screening of the customer. The purpose of follow-up screening is to verify the legitimacy of the customer and the principal user, to confirm that the customer and principal user placing an order are acting within their authority, and to verify the legitimacy of the end-use. If follow-up screening does not resolve concerns about the order or there is reason to believe a customer may intentionally or inadvertently violate U.S. laws, providers are encouraged to contact designated entities within the U.S. Government for further information and assistance. The following questions address how the Guidance could be modified to improve follow-up screening of customers.
What, if any, mechanisms for pre-screening customers or categories of customers for certain types of orders, if any, should be considered to make secondary screening for providers of synthetic oligonucleotides more efficient?
Are there additional types of end-user screenings or follow-up mechanisms that should be considered to mitigate the risk that synthetic genetic materials containing sequences assessed to pose biosecurity risks are transferred to a second party who does not have a legitimate purpose to receive them?
The Guidance sets forth recommended baseline standards for the gene and genome synthesis industry and other providers of synthetic dsDNA products. Although voluntary, it places upon dsDNA providers the responsibility for screening sequences, customers, and end-users. In considering updates to the Guidance, the U.S. Government seeks approaches that minimize undue negative impacts of customer and sequence screening on the synthetic biology industry and the life sciences research community. The following questions are meant to elicit insights into how these responsibilities may have impacted synthetic dsDNA providers and customers.
Does implementation of the current Guidance unduly burden providers of synthetic dsDNA? If so, how could it be modified without compromising effectiveness?
Have customers experienced delays in receiving orders of synthetic dsDNA due to screening?
Have there been any undue burdens, financial, logistical, or otherwise since implementing the Guidance? If so, has it increased, especially as other costs associated with dsDNA synthesis have decreased?
What challenges, if any, do the recommendation to retain records of customer orders, “hits,” and/or follow-up screening for at least eight years present for your organization?
How might potential changes to the Guidance to expand the scope or methodologies affect the burden for providers of dsDNA and customers (including delays to scientific progress caused by extended review)?
Is your organization concerned about legal liability challenges between customers and providers?
The Guidance currently addresses only synthetic dsDNA and it was developed based on providers' existing protocols and technologies at that time. The life sciences field is rapidly advancing through improved bioinformatics tools, new technologies, and new discoveries. The following questions pertain to how the Guidance could be modified to address the new biosecurity risks that may be posed by advances in the life sciences.
Do other oligonucleotide types and other synthetic biological technologies, currently not covered by the Guidance, pose similar biosecurity risks as synthetic dsDNA (e.g., Ribonucleic Acid [RNA], single-stranded DNA, or other oligonucleotides)?
Are there other appropriate security measures that should be established to address the potential threats arising from the use of nucleic acid synthesis, given new and emerging technologies in the life sciences?
Are there new biosecurity risks posed by the introduction of new generations of benchtop DNA synthesizers capable of synthesizing and assembling dsDNA, RNA, single-stranded DNA, or oligonucleotides in-house that should be addressed by the Guidance?
As synthetic biology becomes an increasingly digital enterprise with large databases, digital tools, robotics, and artificial intelligence, what new risks are presented to providers and consumers of synthetic oligonucleotides?
If new risks are evident, how should these risksbe addressed, keeping in mind the potential impacts on providers, customers, and scientific progress?
The U.S. Government is committed to mitigating the potential biosecurity risks associated with synthetic DNA and its applications, while minimizing undue impacts on providers, customers, and scientific progress.
Are there other mechanisms that the U.S. Government should consider for screening sequences, customers, or end-uses that may help mitigate the biosecurity risks associated with synthetic nucleotides and their applications, while minimizing undue impacts on providers, customers, and scientific progress?
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