Ex Parte GELFAND et al

Patent Trial and Appeal BoardAug 2, 2018

12421188 (P.T.A.B. Aug. 2, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE FIRST NAMED INVENTOR 12/421, 188 04/09/2009 DAVID H GELFAND 41504 7590 08/06/2018 ROCHE I KILPATRICK TOWNSEND & STOCKTON LLP Mailstop: IP Docketing - 22 1100 Peachtree Street Suite 2800 Atlanta, GA 30309 UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O. Box 1450 Alexandria, Virginia 22313-1450 www .uspto.gov ATTORNEY DOCKET NO. CONFIRMATION NO. 88883-761270 (007810US) 3964 EXAMINER SISSON, BRADLEY L ART UNIT PAPER NUMBER 1634 NOTIFICATION DATE DELIVERY MODE 08/06/2018 ELECTRONIC Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address(es): ipefiling@kilpatricktownsend.com pair_roche@firsttofile.com KTSDocketing2@kilpatrick.foundationip.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte DAVID H GELFAND, IVO GL YNNE GUT, KEITH A. BAUER, and FLORENCE MAUGER 1 Appeal2017-001917 Application 12/421,188 Technology Center 1600 Before ERIC B. GRIMES, JOHN G. NEW, and TIMOTHY G. MAJORS, Administrative Patent Judges. NEW, Administrative Patent Judge. DECISION ON APPEAL SUMMARY Appellants file this appeal under 35 U.S.C. Â§ 134(a) from the Examiner's Final Rejection of claims 1-3, 5, 7, 9, 11, 12, 14, 15, 53, and 54 1 Appellants identify Roche Molecular Systems, Inc. and CEA/Institut de Genomique - Centre National de Genotypage of Batiment G2 as the real parties-in-interest. App. Br. 3. Appeal2017-001917 Application 12/421, 188 as unpatentable under 35 U.S.C. Â§ 112, first paragraph, for lack of enablement. The claims also stand rejected as unpatentable under 35 U.S.C. Â§ 101 because the claimed invention is not supported by either a specific, substantial, and credibly-asserted utility or a well-established utility and under 35 U.S.C. Â§ 112, first paragraph, as lacking enablement. 2 We have jurisdiction under 35 U.S.C. Â§ 6(b). We REVERSE. NATURE OF THE CLAIMED INVENTION Appellants' invention is directed to polynucleotides comprising 5'- tails with sequence segments useful for the detection of target nucleic acid sequences, and methods for their use in detecting target nucleic acids. Abstract. REPRESENTATIVE CLAIM Claim 1 is representative of the claims on appeal and recites: 1. A method of determining if a sample contains a target nucleic acid, the method comprising: (a) contacting the sample with a primer polynucleotide, a nucleotide set and a polymerase to generate an amplification mixture, wherein; (i) the primer polynucleotide comprises a 5' portion and a 3' portion, the 5' portion comprising two or more contiguous sequence segments, wherein each sequence segment comprises at least three nucleotide bases, and the 5'-end nucleotide base of each sequence segment is unique 2 The Examiner also rejected the claims under 35 U.S.C. Â§ 101 as inoperable. Final Act. 12. The Examiner has withdrawn this rejection. Ans. 2. 2 Appeal2017-001917 Application 12/421, 188 within one sequence segment and is the same in each sequence segment;; (ii) the nucleotide set comprises four different types of nucleotide bases, wherein three nucleotide bases are only in the form of deoxyribonucleotides ( dNTPs ), and the majority of bases of a fourth type is in the form of a ribonucleotide (rNTP), wherein the base of the ribonucleotide is complementary to the unique 5' nucleotide base of each sequence segment of the primer polynucleotide; and (iii) the polymerase comprises deoxyribonucleotide and ribonucleotide incorporating activities; (b) submitting the amplification mixture to specific amplification conditions to produce an amplicon, if the target nucleic acid is present, said amplicon comprising two or more contiguous amplicon segments complementary to the two or more contiguous sequence segments in the 5'-portion of the primer polynucleotide, and comprising the rNTP incorporated as the 3 '-end nucleotide base of each amplicon segment; ( c) following said submitting, subjecting the amplification mixture to an alkaline solution not sufficient to degrade DNA but sufficient to cleave the amplicon, if generated, at the site of the incorporated rNTP, thereby generating a fragment consisting of the amplicon segment; and ( d) detecting a mass of the fragment, if generated, by mass spectrometry wherein the detected mass indicates amplification of the target nucleic acid sequence, thereby determining if the sample contains the target nucleic acid sequence. App. Br. 16. ISSUES AND ANALYSES We decline to adopt the Examiner's findings of fact and conclusions that the appealed claims are non-enabled or lack utility. We address the arguments raised by Appellants below. 3 Appeal2017-001917 Application 12/421, 188 A. Rejection under 35 U.S.C. Â§ 112, first paragraph Issue Appellants argue that the Examiner erred in concluding that it would have taken undue experimentation by a person of ordinary skill in the art to perform the full scope of the claimed invention and, specifically, to determine if a sample contains a "target nucleic acid." App. Br. 7. Analysis The Examiner has construed Appellants' claimed invention as encompassing the simultaneous detection of an infinite number of different target nucleic acids in a common solution. Final Act. 5 ( citing Spec. ,r 51 ). The Examiner finds that Appellants' claims encompass the determination of the mass of any conceivable "target nucleic acid," regardless of source, type of sample, or concentration. Id. at 5-6 ( citing Spec. ,r 39). The Examiner finds that, given the very large variety of sources of nucleic acids, the quantity of experimentation necessary to enable the full scope of the claimed invention is great, on the order of many man-years, and even then with little if any reasonable expectation of successfully enabling the full scope of the claims. Final Act. 8. In support of this finding, the Examiner notes that the claimed method requires the pairing of primers with a template. Id. The Examiner finds that, in order to select the appropriate probe/primers, which are deemed to be essential, one must have knowledge of the nucleotide sequence of the template: absent knowledge of the nucleotide sequence of the template, selection of the correct primer is highly unpredictable. Id. 4 Appeal2017-001917 Application 12/421, 188 The Examiner further finds, by way of example, that, because the nucleotide sequence for the genome of any given species of bacteria is highly unpredictable, for a person of ordinary skill to practice the full scope of the invention, one would have to first determine the nucleotide sequence for each and every organism before one would be able to select appropriate probe and/or primer sequences that are essential to the claimed invention. Final Act. 8. The Examiner therefore concludes that, in view of the breadth of scope of the claims, the limited guidance provided, the unpredictable nature of the art to which the claimed invention is directed, and in the absence of convincing evidence to the contrary, the claims are not enabled by the disclosures of Appellants' Specification. Final Act. 12. Appellants argue first that claims that read on some inoperable embodiments are not necessarily invalid for lack of enablement. App. Br. 7 (citing, e.g., ln re Angstadt, 537 F.2d 498, 502-503 (C.C.P.A. 1976). According to Appellants, their claimed invention is directed to a specific method of detecting a target nucleic acid using an allegedly novel and nonobvious method. Id. at 8. Appellants point out that the Examiner does not appear to question the fact that there was, at the time of filing, a very large number of known target nucleic acids that could have been readily used in the claimed method. Id. Instead, argue Appellants, the Examiner finds that even though many target nucleic acids were known, a large number of target nucleic acids were not known and that it would have taken an undue amount of experimentation to determine them. Id. Appellants assert that their claimed method of detecting target nucleic acids could have been applied the day the application was filed in view of 5 Appeal2017-001917 Application 12/421, 188 the very large database of sequences available, for example in Genbank, as of April, 2009. App. Br. 8. Appellants further contend that the claimed method could have been readily applied to such sequences without undue experimentation. Id. Appellants point out that, as of the date of filing, approximately 500 complete genomes had been sequenced. Id. at 8-9 (citing http://sulab.org/ 2013 / 06/ sequenced-genomes-per-year/ (last visited July 26, 2018) ). Furthermore, Appellants argue, this evidence submitted to the Examiner represents only complete genomes sequenced; many other gene sequences were available from partially sequenced genomes at the time of filing. Id. at 9. Furthermore, Appellants add, many gene sequences of interest, even in genomes not yet completely sequenced, are related to similar sequences in known genomes. Id. Therefore, Appellants contend, not only could those of ordinary skill in the art have applied the claimed method to the numerous nucleic acid sequences known at the time, but with little or no experimentation, related gene sequences could have been determined and detected according to the claimed methods. Id. Appellants therefore assert that for the currently claimed invention, a person of ordinary skill in the art could have readily identified what sequences were known in the art (e.g., by searching Genbank) and could have readily performed simple PCR experiments to test whether primers based on known sequences would amplify target sequences if desired from organisms that had not been sequenced. App. Br. 10. Thus, to the extent the claims read on inoperative embodiments, one of ordinary skill in the art could have readily determined which embodiments were inoperative. Id. We agree with Appellants. The Examiner concludes that, because the claims recite a general method of identifying nucleic acid target sequences, 6 Appeal2017-001917 Application 12/421, 188 and because the number of possible nucleic acid target sequences in all of nature is astronomically large and that the majority of potential target sequences in nature are, as of yet, unknown, then the claims are not enabled. Specifically, the Examiner concludes that it would take an undue amount of experimentation to determine the possible target sequences of all nucleic acid sequences in all extant species in nature, and therefore the claims are not enabled. We do not think this is a reasonable approach. We agree with Appellants' evidence-supported argument that, as of the time of filing, the nucleic acid sequences of many important genes, and even whole genomes were well known and readily accessible in the art. The number of known target sequences has only grown since that time. We further agree with Appellants that, having identified a target nucleic acid sequence of interest, a person of ordinary skill in the art would have been able to apply the claimed method to identify the presence of that target nucleic acid sequence without undue experimentation. Certainly, the Examiner has made no finding of fact that a person of ordinary skill, having identified a target nucleic acid sequence of interest, would have been unable to apply Appellants' claimed method to detect it without undue experimentation. Appellants' Specification discloses several Examples employing the claimed methods, and the Examiner makes no finding of fact that these Examples are not enabling of the claims. Furthermore, given the highly conservative structure of nucleic acids in nature, i.e., four deoxyribose- or ribose-based nucleotides arranged in a helical structure, the Examiner has made no finding of fact supporting the contention that Appellants' claimed 7 Appeal2017-001917 Application 12/421, 188 method would not be enabled for any possible nucleic acid target sequence determined by a person of ordinary skill in the art. Both the Examiner and Appellants point to Promega Corp. v. Life Technologies Corp., 773 F.3d 1338 (Fed. Cir. 2014) (rev'd on other grounds in Life Technologies Corp. v. Promega Corp., 137 S.Ct. 734 (2017). The Examiner points to our reviewing court's finding in Promega that: [T]he claims at issue here similarly cover potentially thousands of undisclosed embodiments in an unpredictable field. And similar to Wyeth, the specification of the Promega patents provides only a starting point. ... As the extensive evidence here demonstrates, undue experimentation would have been required in order to enable the full scope of coverage sought by Promega- the successful co-amplification of potentially thousands of unrecited STR loci combinations. Ans. 11-12 (quoting Promega, 773 F.3d at 1347). However, we are not persuaded that the Examiner's reliance upon Promega is apposite in this instance. In Pro mega, the language of the claims at issue was construed in such a manner as to include a possibly infinite number of short tandem repeat ("STR") loci in a co-amplification method in which it was admitted by both parties that the addition of each additional locus added a layer of undue complexity and uncertainty in an unpredictable art. Promega, 773 F.3d at 1347. Because the claim language employing the claim term "comprising" admitted of the possibility of multiple, unnamed, additional loci, adding a degree of uncertainty such that it would require an undue amount of experimentation to practice the claim, the Federal Circuit held that the claims were not enabled. Id. at 1350. Appellants' claims, however, are directed to a method of determining whether a sample contains a target nucleic acid sequence. Unlike the case in 8 Appeal2017-001917 Application 12/421, 188 Promega, the claimed method does not require the co-amplification of multiple loci, rather the steps of claim 1 are directed to a method of amplifying a single target sequence. It is true, as the Examiner finds, that Appellants' Specification discloses that potentially large numbers of sites can be co-amplified by this method. See, e.g., Spec. ,r 84. But such co- amplification is not required by claim 1, and [ e ]ven if some of the claimed combinations were inoperative, the claims are not necessarily invalid. 'It is not a function of the claims to specifically exclude * * * possible inoperative substances * * * *' .... Of course, if the number of inoperative combinations becomes significant, and in effect forces one of ordinary skill in the art to experiment unduly in order to practice the claimed invention, the claims might indeed be invalid. Atlas Powder Co. v. E.I. Du Pont De Nemours & Co., 750 F.2d 1569, 1576 (Fed. Cir. 1984) ( citations omitted). Consequently, because we conclude that a person of ordinary skill in the art could have practiced Appellants' claimed invention, as supported by the disclosures of the Specification, to identify a target nucleic acid sequence without undue experimentation, we reverse the Examiner's rejection of the claims. B. Rejection under 35 U.S.C. Â§ 101 as lacking utility and 35 U.S.C. Â§ 112, first paragraph, as lacking enablement Issue Appellants argue the Examiner erred in finding that the claims are not supported by a specific, substantial, and credible asserted utility, or a well- established utility. App. Br. 11. 9 Appeal2017-001917 Application 12/421, 188 Analysis The Examiner repeats the finding that the claimed method is construed as encompassing the determination of mass of any conceivable "target nucleic acid," regardless of source, type of sample, or concentration. Final Act. 18. The Examiner notes that the claims do not require that the nucleic acid to ultimately be detected and the mass thereof be determined even be known at the time of filing, much less require that it be useful under Section 101. Id. at 19. The Examiner points to MPEP Â§ 2107.01 B(C), which states that "[a] method of assaying for or identifying a material that itself has no specific and/or substantial utility" is not considered to have a substantial utility. Id. The Examiner finds that, although nucleic acids that satisfy the utility requirements of 3 5 USC Â§ 101, were known at the time of filing, such narrowing limitations have not been read into the claims. Id. (citing MPEP Â§ 2111.01). The Examiner urges Appellants to consider amending the claims such that the claims are drawn to those nucleic acids that unquestionably do have utility under 35 USCÂ§ 101 and which are adequately supported by Appellants' Specification. Id. Finally, because the Examiner concludes that the claimed invention is not supported by either a specific, substantial, and credible asserted utility, or a well-established utility, a person of ordinary skill in the art clearly would not know how to use the claimed invention, and therefore rejects the claims as lacking enablement under 35 U.S.C. Â§ 112, first paragraph. Appellants argue that their claims on appeal have a specific and substantial utility. App. Br. 11. Appellants point to their Specification, which discloses that: "The present invention relates to the field of nucleic 10 Appeal2017-001917 Application 12/421, 188 acid detection." Id. (quoting Spec. ,r 2). Appellants assert that nucleic acid detection has numerous uses including diagnostic uses and research uses. Id. at 11-12. Therefore, Appellants argue, their claimed invention has a specific utility. Id. at 12. Furthermore, Appellants contend, the claimed invention was useful to the public as of the filing date. App. Br. 12. Appellants point to Example 1 of the Specification, which illustrates use of the claimed method for SNP genotyping. Id. ( citing Spec. ,r,r 101-105). Appellants argue that the claimed invention is akin to the "research tools such as gas chromatographs, screening assays, and nucleotide sequencing techniques" cited in MPEP Â§ 2107.01 ( c) in that the method can be applied as a research tool. Id. Appellants contend that such research tools have "unquestionable utility ( e.g., they are useful in analyzing compounds)" and therefore have a specific and substantial utility. Id. We agree with Appellants. "Many research tools such as gas chromatographs, screening assays, and nucleotide sequencing techniques have a clear, specific and unquestionable utility ( e.g., they are useful in analyzing compounds)." MPEP Â§2107.0lC. Appellants' claims are directed to "A method of determining if a sample contains a target nucleic acid" by contacting the sample with a primer polynucleotide, a nucleotide set and a polymerase to generate an amplification mixture, producing an amplicon, cleaving the amplicon from the incorporated rNTP, and detecting a mass of the fragment by mass spectrometry. This is a means of detecting the presence of specific nucleic acid target sequences and, as such, has an undoubted utility. We acknowledge the Examiner's point that the MPEP states that: "A method of assaying for or identifying a material that itself has 11 Appeal2017-001917 Application 12/421, 188 no specific and/or substantial utility" and that requires carrying out further research to identify or reasonably confirm a "real world" context of use does not define a "substantial utility," but we reject the Examiner's reasoning, contrary to the Examples in Appellants' Specification, that identifying the presence of target nucleic acid sequences is a method for assaying "a material that itself has no specific and/or substantial utility." Examples of the utility of identifying the presence of a targeted nucleic acid sequence, e.g., in diagnostic, forensic, and research instances, are so numerous as to be commonplace. We consequently reverse the Examiner's rejection upon this ground. DECISION TheExaminer'srejectionofclaims 1-3, 5, 7, 9, 11, 12, 14, 15, 53, and 54 as unpatentable under 35 U.S.C. Â§ 112, first paragraph, is reversed. TheExaminer'srejectionofclaims 1-3, 5, 7, 9, 11, 12, 14, 15, 53, and 54 as unpatentable under 35 U.S.C. Â§Â§ 101 and 112 is reversed. REVERSED 12