13016004 (P.T.A.B. Aug. 29, 2016)

Ex Parte Nazarenko

Patent Trial and Appeal BoardAug 29, 2016

13016004 (P.T.A.B. Aug. 29, 2016)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 13/016,004 01/28/2011 84538 7590 MMWVIP,LLC 10 N JEFFERSON ST SUITE 100 FREDERICK, MD 21707 08/31/2016 FIRST NAMED INVENTOR Irina Nazarenko 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. 2912943-069001 3681 EXAMINER CHUNDURU, SURYAPRABHA ART UNIT PAPER NUMBER 1637 NOTIFICATION DATE DELIVERY MODE 08/31/2016 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): docketing@mmwvlaw.com cgmoore@mmwvlaw.com dwoodward@mmwvlaw.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte IRINA NAZARENK0 1 Appeal2014-008020 Application 13/016,004 Technology Center 1600 Before FRANCISCO C. PRATS, JACQUELINE T. HARLOW, and TIMOTHY G. MAJORS, Administrative Patent Judges. MAJORS, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. Â§ 134 involving claims to methods of genotyping nucleic acids, and especially for genotyping target nucleic acids for human papillomavirus ("HPV"). The claims have been rejected as anticipated. We have jurisdiction under 35 U.S.C. Â§ 6(b ). We reverse. STATEMENT OF THE CASE "The present disclosure relates to methods ... for determining and confirming the presence of target nucleic acid in a sample and genotyping 1 Appellant identifies the Real Party in Interest as Qiagen Gaithersburg, Inc. (App. Br. 3.) Appeal2014-008020 Application 13/016,004 the target nucleic acid." (Spec. i-f 2.) "Where abnormal cytological examinations of samples are observed, it is often beneficial to determine whether the tissue is infected with human papillomavirus (HPV) associated with cervical cancer." (Id. at i-f 4.) According to the Specification, "it would be beneficial to develop materials and methods for performing [HPV genotyping] ... with reduced [sample] volume." (Id. i-f 5.) Claims 1-14 are on appeal. Claim 1 is the only independent claim: 1. A method for genotyping a target nucleic acid in a sample is provided comprising: (a) generating a first detection mixture by a method comprising contacting a portion of the sample with a first probe set, wherein the first probe set comprises a nucleic acid probe specific for a first genotype of the target nucleic acid and a nucleic acid probe specific for a second genotype of the target nucleic acid, but does not comprise a nucleic acid probe specific for a third genotype of the target nucleic acid; (b) generating a second detection mixture by a method comprising contacting a portion of the sample \~1ith a second probe set, wherein the second probe set comprises a nucleic acid probe specific for the second genotype of the target nucleic acid and a nucleic acid probe specific for the third genotype of the target nucleic acid, but does not comprise a nucleic acid probe specific for the first genotype of the target nucleic acid; and ( c) treating the first and second detection mixtures under conditions wherein the nucleic acid probes hybridize specifically to the first, second, and/ or third genotype of the target nucleic acid; and ( d) detecting hybridization of the nucleic acid probe to the target nucleic acid, wherein: (i) hybridization in the first detection mixture, but not the second detection mixture indicates that the sample comprises the first genotype of the target nucleic acid; (ii) hybridization in the second detection mixture, but not the first detection mixture, indicates that the 2 Appeal2014-008020 Application 13/016,004 sample comprises the third genotype of the target nucleic acid; and (iii) hybridization in the first detection mixture and the second detection mixture indicates that the sample comprises the second genotype of the target nucleic acid. (App. Br. 13 (Claims App'x).) The claims stand rejected as follows: Claims 1--4, 6, 7, and 11-13 as anticipated under 35 U.S.C. Â§ 102(b) by Anthony. 2 Claims 1--4 and 6-14 as anticipated under 35 U.S.C. Â§ 102(b) by N azarenko I. 3 Claims 1-14 as anticipated under 35 U.S.C. Â§Â§ 102(a) and (e) by N azarenko II. 4 DISCUSSION The issues for each of the three anticipation rejections is similar: Has the Examiner established by a preponderance of the evidence that Anthony, Nazarenko I, or Nazarenko II anticipate the claimed methods? For the reasons discussed below, we conclude the answer is no and thus reverse. Anticipation of Claims 1-4. 6. 7. and 11-13 by Anthony In order to compare the claims to the prior art, we begin with claim construction. During prosecution, we give claim terms the broadest 2 Anthony et al., US 7,439,016 Bl, issued Oct. 21, 2008 ("Anthony"). 3 Nazarenko et al., US 2006/0051809 Al, published Mar. 9, 2006 ("Nazarenko I"). 4 Nazarenko, US 2009/0298187 Al, published Dec. 3, 2009 ("Nazarenko II"). 3 Appeal2014-008020 Application 13/016,004 reasonable interpretation as understood by a person of ordinary skill in the art in light of the specification - this interpretation is informed by "whatever enlightenment by way of definitions or otherwise may be afforded by the written description contained in the applicant's specification." In re Morris, 127 F.3d 1048, 1054 (Fed. Cir. 1997). Claim 1 recites a method for genotyping a target nucleic acid in a sample. Claim 1 requires, inter alia, "generating" first and second detection mixtures from the sample. In other words, and consistent with the Specification, the sample is separated into first and second detection mixtures. (See, e.g., Spec. i-f 47 ("After the sample comprising the nucleic acid is prepared for hybridization, it is separated into two aliquots, each of which is contacted with a probe set ... ".) In addition, each detection mixture of claim 1 is contacted with a unique probe set. In the first detection mixture, the probe set includes probes specific for a first and second genotype of the target nucleic acid, but no probe for the third genotype. In the second detection mixture, the probe set includes probes specific for the second and third genotype of the target nucleic acid, but no probe for the first genotype. Claim 1 thus requires overlapping (i.e., probes for the second genotype), but non-identical probe sets in the first and second detection mixtures. With these interpretations in mind, we tum to whether Anthony anticipates claim 1 by disclosing each of the limitations in the same manner as claimed. Net MoneyIN, Inc. v. VeriSign, Inc., 545 F.3d 1359, 1371 (Fed. Cir. 2008) ("[U]nless a prior art reference discloses within the four comers of the document not only all of the limitations claimed but also all of the 4 Appeal2014-008020 Application 13/016,004 limitations arranged or combined in the same way as recited in the claim, it cannot be said to prove prior invention of the thing claimed and, thus, cannot anticipate under 35 U.S.C. Â§ 102.") The Examiner, citing Example 13 and Tables 23 and 24 of Anthony, finds that Anthony teaches the method of claim 1. (Ans. 2.) More particularly, the Examiner finds "example 13 of Anthony et al. discloses use of four specific probe sets for genotyping HPV 16, HPVl 8, HPV31 and HPV 45, wherein each probe set comprises a CSP [capture sequence probe] and an SSP [signal sequence probe]." (Id. at 6.) Moreover, according to the Examiner, Anthony discloses "table 23 and 24, wherein HPVl 8/HPV 45 mixture of probe sets were used, which can be interpreted as a first detection mixture comprising first probe set for HPVl 8 and a second probe set for HPV45." (Id. at 6-7) The Examiner further finds "example 13 requires a third probe set HPVl 6 and a fourth probe set HPV 31, thus the example 13 encompasses a second detection mixture which includes a combination of second probe set HPV 45 and a third probe set HPVl 6; and a third detection mixture which includes second probe set HPV 45 and a fourth probe set HPV31 and any additional detection mixtures .... " (Id. at 7 .) Appellant counters that Anthony does not disclose generating the detection mixtures as recited in claim 1. (App. Br. 6-7; Reply Br. 5---6.) Appellant contends that "Example 13 of Anthony demonstrates that 'capture sequence probes' designed to be specific for HPV18 do not cross-react with HPV45, and vice versa." (App. Br. 6.) Moreover, according to Appellant, in Anthony"[ e Jach reaction mixture contains a single 'capture sequence probe' and a single 'signal sequence probe' specific for the same target 5 Appeal2014-008020 Application 13/016,004 nucleic acid." (Id. at 7.) Appellant further argues the Examiner's interpretation of Tables 23 and 24 as teaching a "first detection mixture" having probe sets for both HPVl 8 and HPV 45 is incorrect. That is not possible, according to Appellant, because the concentrations ofHPV18 and HPV 45 are different in the experiment of Table 23 versus the experiment illustrated in Table 24. (Id. at 6) ("the Examiner's assertion ... is refuted by the impossibility of a mixture simultaneously containing 10 pg/ml and 4 ng/ml ofHPV18 DNA-or, alternatively, HPV DNA.".) Appellant has the better position. We are not persuaded that Anthony teaches separating a nucleic acid sample into two (or more) detection mixtures in the same way as claimed. Anthony discloses "[i]n this study [of Example 13], the ability of the two methods to detect HPV18 and HPV45 was assessed using HPV18 and HPV45 plasmid DNA." (Anthony col. 25, 11. 24--26.) As Appellant correctly points out, each reaction mixture of Anthony includes probes specific for one HPV genotype. (App. Br. 6; Reply Br. 5.) For example, the experiment illustrated in Table 23 uses CSP and SSP probes specific for HPVl 8 - confirming that these probes are highly specific and sensitive to HPV18 with low cross-reactivity with HPV45. (Anthony col. 47---67 .) Also, although Table 24 teaches use of SSP and CSP probes specific for HPV 45, Anthony does not teach a single detection mixture that includes probes for both HPVl 8 and HPV 45 - the mixtures in Table 23 and 24 are different as illustrated by the different concentrations of HPVl 8 and HPV45. Insofar as the Examiner finds the mixtures and probes in Table 23 are somehow combined with the mixtures and probes in Table 6 Appeal2014-008020 Application 13/016,004 24 to satisfy the "first detection mixture" of claim 1, that finding is not consistent with the teachings of Anthony. The Examiner's finding that Anthony teaches a "second detection mixture" that includes probes for both HPV 45 and HPVl 6 also lacks support. (Ans. 7.) Anthony states that "[c]apture sequence probes (CSPs) for each of the four [HPV] types: HPV16, HPV18, HPV31, and HPV45, were designed" (Anthony, col. 25, 11. 27-29), but Anthony does not provide any specific details of testing ofHPV types other than HPV18 and HPV45. Even if one assumed that mixtures such as described in Tables 23 and 24 were designed to test sensitivity and cross-reactivity ofHPV16 (as opposed to HPVl 8) and HPV 45, there would remain inadequate evidence to show a single mixture including probes for both HPV16 and HPV45. Quite the opposite, these would be different mixtures, each containing probes specific for either HPVl 6 or HPV 45 respectively, just as discussed above. In sum, claim 1 requires generating first and second detection mixtures from a nucleic acid sample, where the detection mixtures have overlapping but non-identical probe sets. Anthony does not teach these steps and thus does not anticipate claim 1. Because Anthony does not teach all the limitations of claim 1, it also cannot anticipate claims 2--4, 6, 7, and 11-13, which all depend (directly or indirectly) from claim 1. Anticipation of Claims 1-4. 6-14 by Nazarenko I The Examiner finds that Examples 6 and 12 ofNazarenko I teach all the limitations of claim 1. (Ans. 2-3.) The Examiner further finds that table 1 [of Nazarenko I] indicates use of different mixtures of probe sets and . . . each Luminex bead comprises a set of two probes (CSP and SSP) for same target and utilizes different 7 Appeal2014-008020 Application 13/016,004 mixtures of probe sets for 13 HPV types which includes any combination of probe sets, such as HPV 45/HPV 18; HPV 45/HPVl 6; or HPV 45/HPV 31. (Id. at 7-8.) Appellant argues the portions ofNazarenko cited by the Examiner relate to two assay methods - one involving Luminex beads, and the other involving a 96-well NucleoLink plate-neither of which is the same as claim 1. (App. Br. 8-9 (describing Example 6 and 12 ofNazarenko I).) Critically, according to Appellant, neither method ofNazarenko I teaches that a "sample should first be separated into two different portions ... or suggest contacting the different portions of the same purified and amplified sample with overlapping, but not identical, probe cocktails." (Id. at 9.) To the contrary, Appellant contends the first method uses "a cocktail of probes specific for 13 HPV types ... Luminex[] beads specific for each of the 13 HPV types [are] added to the amplified sample and allov,red to hybridize to the targets." (Id. at 8.) And, in the second method, Appellant contends "[ e Jach well of the 96-well plate is coated with two oligonucleotides complementary to the late and early regions of a single HPV type" and "[s]amples are added to the wells to permit hybridization." (Id. at 9) Here again, Appellant has the better position. Table 1 ofNazarenko I, which the Examiner cites, identifies capture sequence probes for different HPV types, but does not clearly disclose "use of different mixtures of probe sets" in the assays that the Examiner otherwise relies upon to show anticipation-Example 6 and Example 12. Nor does the Examiner clearly identify in either Example 6 or 12 the claimed first and second detection mixtures prepared from a sample, where each mixture includes partially 8 Appeal2014-008020 Application 13/016,004 overlapping probe sets. Appellant, on the other hand, has persuasively argued that the cited examples in Nazarenko I use probes specific to individual (non-overlapping) HPV types. (App. Br. 7-9; Reply Br. 6-7.) In short, we are not persuaded that Nazarenko I teaches the claimed steps of generating first and second detection mixtures from one sample, where each detection mixture has different, yet partially overlapping probe sets as required in claim 1. For these reasons, we conclude the Examiner did not establish by a preponderance of the evidence that claims 1--4 and 6-14 are anticipated by N azarenko I. Anticipation of Claims 1-14 by Nazarenko 115 The Examiner finds that Nazarenko II teaches all the limitations of claim 1. (Ans. 4 (citing Nazarenko II at i-fi-159-61, 146-166).) According to the Examiner, the cited portion teach combination of probe sets, such as HPV 45/HPV 18, HPV 45/HPVl 6, or HPV 45/HPV 31. The TSHC analysis detects specific type of HPV depending on the type of HPV target present in the sample. Second, as discussed in the rejection detection mixture comprises a combination of probe sets, wherein each probe set specific for each HPV type comprises capture and signal probes as opposed to the Applicants' arguments drawn to capture and signal probes as a combination of HPV probe sets. (Id. at 8.) 5 The Examiner rejected these claims under both Â§102(a) and Â§102(e). We address the rejections together on appeal. 9 Appeal2014-008020 Application 13/016,004 We are not persuaded. Instead, we agree with Appellant that the portions of N azarenko II cited by the Examiner appear to relate to general hybridization of nucleic acids (N azarenko II i-fi-1 59---61) and testing for cross- reaction (id. at i-fi-f 144--165). We further find persuasive Appellant's argument that "[n]othing [in the cited portions ofNazarenko II] indicates that the sample should first be separated into two different portions, nor is there a suggestion to contact different portions of the same sample with overlapping, but not identical, probe cocktails." (App. Br. 10.) The Examiner has not satisfied the burden to demonstrate by a preponderance of the evidence that N azarenko II teaches each limitation of claim 1. We thus reverse the rejection of claim 1-14 by Nazarenko II. SUMMARY We reverse the rejection of: (i) claims 1--4, 6, 7, and 11-13 as anticipated under 35 U.S.C. Â§ 102(b) by Anthony; (ii) claims 1--4 and 6-14 as anticipated under 35 U.S.C. Â§ 102(b) by Nazarenko I; and (iii) claims 1- 14 as anticipated under 35 U.S.C. Â§ 102(a) andÂ§ 102(e) byNazarenko II. REVERSED 10