10148032 (B.P.A.I. Sep. 20, 2010)

Ex Parte Belew et al

Board of Patent Appeals and InterferencesSep 20, 2010

10148032 (B.P.A.I. Sep. 20, 2010)

UNITED STATES PATENT AND TRADEMARK OFFICE ________________ BEFORE THE BOARD OF PATENT APPEALS AND INTERFERENCES ________________ Ex parte MAKONNEN BELEW, BO-LENNART JOHANSSON, and JEAN-LUC MALOISEL ________________ Appeal 2010-000779 Application 10/148,032 Technology Center 1700 ________________ Before CHARLES F. WARREN, CATHERINE Q. TIMM, and MARK NAGUMO, Administrative Patent Judges. NAGUMO, Administrative Patent Judge. DECISION ON APPEAL1 1 The two-month time period for filing an appeal or commencing a civil action, as recited in 37 C.F.R. § 1.304, or for filing a request for rehearing, as recited in 37 C.F.R. § 41.52, begins to run from the “MAIL DATE” (paper delivery mode) or the “NOTIFICATION DATE” (electronic delivery mode) shown on the PTOL-90A cover letter attached to this decision. Appeal 2010-000779 Application 10/148,032 2 A. Introduction2 Makonnen Belew, Bo-Lennart Johansson, and Jean-Luc Maloisel (“Belew”) timely appeal under 35 U.S.C. § 134(a) from the final rejection3 of claims 1-16. We have jurisdiction under 35 U.S.C. § 6. We REVERSE. The subject matter on appeal relates to a method of removing a substance carrying a negative charge from an aqueous solution with a mixed-mode anion exchange resin. According to the 032 Specification, the anion exchange resin has positively-charged-nitrogen-containing ligands in which a thioether linkage is present to enhance the strength of the interaction of the absorbant with the substance of interest. Representative Claim 1 reads: 1. A method for the removal of a substance carrying a negative charge from an aqueous liquid (I), said method comprising the steps of i) contacting the liquid with an anion-exchanger (1) that comprises a base matrix carrying a plurality of mixed mode anion-exchanging ligands in which there is a positively charged nitrogen under conditions permitting binding between the ligands and the substance; and 2 Application 10/148,032, Method for Anion-Exchange Adsorption and Thioether Anion-Exchangers, filed 10-September 2002, filed as the National Stage of an international Application filed 22 November 2000, claiming the benefit of a Swedish Application filed 22 November 1999. The specification is referred to as the “032 Specification,” and is cited as “Spec.” The real party in interest is listed as Amersham Biosciences AB (Appeal Brief, filed 19 August 2005 (“Br.”), 2.) 3 Office action mailed 23 June 2004. Appeal 2010-000779 Application 10/148,032 3 ii) desorbing said substance from said anion-exchanger by the use of a liquid (liquid (II)), wherein (A) all or a part of the plurality of mixed mode anion- exchange ligands have a thioether linkage within a distance of 1-7 atoms from its positively charged nitrogen, and (B) the anion-exchanger (1) is (a) capable of binding the substance of interest in an aqueous reference liquid (II) at an ionic strength corresponding to 0.25 M NaCl, and (b) exhibits in the pH interval 2-12 a maximal breakthrough capacity for the substance of at least 200% of the breakthrough capacity of the substance for Q-Sepharose Fast Flow, said anion-exchangers having essentially the same ligand density and breakthrough capacities being determined under the same conditions. (Br., Claims App. 1 (pages unnumbered); indentation, paragraphing, and emphasis added.) Claim 12 covers an anion-exchanger (1) in which the anion-exchange ligand is defined by the formula: --SP---[R5-S-R1-N+(R2R3R4)], the particular details of which need not detain us. Claim 12 further requires that the maximal breakthrough capacity for at least one of seven named proteins be at least 200% of the maximal breakthrough capacity for a “Q-exchanger (-CH2CH(OH)CH2N+(CH3)3),” with several conditions specified as being the same for the anion-exchanger (1) and the reference anion-exchanger (2). (Br., Claims App. 4-5 (pages unnumbered).) Appeal 2010-000779 Application 10/148,032 4 The Examiner has maintained the following grounds of rejection:4 A. Claims 1-11, 14, and 15 stand rejected under 35 U.S.C. § 102(b) in view of Burton.5 B. Claims 12, 13, and 16 stand rejected under 35 U.S.C. § 102(b) in view of Burton. B. Discussion Findings of fact throughout this Opinion are supported by a preponderance of the evidence of record. Initially, we note that Belew presents arguments only for the separate patentability of claims 1 and 12, and that the arguments for the patentability of claim 12 are essentially the same as those for claim 1. (Br. 8-9.) Accordingly, the claims stand or fall with claim 1. 37 C.F.R. § 41.37(c)(1)(vii) (2010). Belew argues that Burton does not anticipate the claimed method because the separation media described by Burton function based on hydrophobic interactions, rather than by using the positively charged nitrogen for adsorption by ionic interaction. (Br. 5.) This argument is not persuasive because the claims do not require such an interaction. Rather, claim 1 merely requires “mixed mode anion-exchanging ligands in which there is a positively charged nitrogen under conditions permitting binding between the ligands and the substance.” The 032 Specification defines the 4 Examiner’s Answer mailed 25 September 2009 (“Ans.”). 5 Simon C. Burton et al., Chromatographic Resins and Methods for Using Same, U.S. Patent 5,652,348 (1997). (Burton is described in the 032 Specification at page 4, ll. 4-12.) Appeal 2010-000779 Application 10/148,032 5 term “mixed mode anion exchange ligand” as a ligand that can provide “at least two different, but co-operative sites which interact with the substance to be bound. One of the sites gives an attractive type of charge-charge interaction between the ligand and the substance of interest. The second site typically gives electron donor-acceptor interaction and/or hydrophobic interactions.” (Spec. 1, ll. 22-27; emphasis added.) The use of the term “bound” in this passage indicates a more general sense of the term than “chemical bonding.” In this regard, Burton describes ligands having both positively chargeable nitrogens and regions that have hydrophobic interactions with the substances of interest. Belew has not come forward with any credible evidence or explanation showing that the interactions required by claim 1 are not also met by the mixed-mode resins described by Burton. Belew further seeks to distinguish the mechanism of action of the inventive resin from that described by Burton, arguing that “the anion exchange resin is used to bind the target substance in the liquid, which can then be desorbed by changing the ionic strength of the solution and/or the pH.” (Br. 6, last para.; citation to the 032 Specification omitted.) In addition to this mechanism not being recited in claim 1, we note that Burton teaches that desorption can be accomplished by changing the pH. (Burton, col. 1, ll. 8-12; col. 14, ll. 17-27.) This purported distinction does not serve to remove Burton as an anticipatory reference. Appeal 2010-000779 Application 10/148,032 6 Finally, Belew argues that the Examiner failed to establish a prima facie case that the maximal breakthrough capacity6 condition recited in claims 1 and 12 is inherent in the resins described by Burton. (Br. 7; 9.) The Examiner argues that “because the ligand meets the criteria of applicant’s claim and specification, it is inherent that the maximal breakthrough capacity for a substance is greater than 200% of the breakthrough capacity of the substance for Q-sepharose fast flow.” (Ans. 4; 5.) The Examiner does not further develop or explain the basis or the reasons for this conclusion. According to the 032 Specification, appropriate anion-exchangers may be selected for the invention by screening for “increased maximal elution ionic strength for the substance (carrying the negative charge) compared to the elution ionic strength required for the same substance on a conventional anion-exchanger.” (Spec. 7, ll. 23-26.) The comparisons, the 032 Specification emphasizes, must be “performed under essentially the same conditions for anion exchanger (1) and (2), i.e., essentially the same support matrix (support material, bead size, pore sizes, pore volume, packing procedure etc), pH, temperature, solvent composition, number of charged ligands having the formula given above etc.” (Spec. 8, ll. 1-5.) Thus, the anion exchanger recited in claim 1 and claimed in claim 12 is not merely a composition of matter (a polymer), but an article of manufacture. The Examiner has not explained why the recited maximal breakthrough property recited in the claims would have been “necessarily present in the thing 6 Belew and the Examiner also refer to this term as the “maximum elution ionic strength.” (Br. 7; Ans. 4.) Appeal 2010-000779 Application 10/148,032 7 described in the reference.” In re Robertson, 169 F.3d 743, 745 (Fed. Cir. 1999). Put another way, the Examiner has not shown that the resins described by Burton are the same or substantially the same as those required by the claims, and has therefore failed to transfer the burden to Belew to show that they are not. Cf. In re Best, 562 F.2d 1252, 1255 (CCPA 1977) We conclude that Belew has shown harmful error in the Examiner’s rejections and we therefore REVERSE. C. Order We REVERSE the rejection of claims 1-16 under 35 U.S.C. § 102(b) in view of Burton. REVERSED sld GE HEALTHCARE BIO-SCIENCES CORP. PATENT DEPARTMENT 101 CARNEGIE CENTER PRINCETON NJ 08540