Science -- Li et al. 303 (5657): 540

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Originally=20 published in Science Express as 10.1126/science.1091403 on = January=20 2, 2004
Science, Vol. = 303, Issue=20 5657, 540-543, January 23, 2004

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A Map of the Interactome Network of the Metazoan C.=20 elegans

Siming = Li,¹^*=20 Christopher M. Armstrong,¹^*=20 Nicolas Bertin,¹^*=20 Hui Ge,¹^*=20 Stuart Milstein,¹^*=20 Mike Boxem,¹^*=20 Pierre-Olivier Vidalain,¹^*=20 Jing-Dong J. Han,¹^*=20 Alban Chesneau,¹^,2^*=20 Tong Hao,¹ Debra S.=20 Goldberg,³ Ning = Li,¹=20 Monica Martinez,¹ = Jean-Fran=E7ois=20 Rual,¹^,4 Philippe=20 Lamesch,¹^,4 Lai = Xu,⁵ Muneesh = Tewari,¹=20 Sharyl L. Wong,³ Lan V.=20 Zhang,³ Gabriel F.=20 Berriz,³ Laurent = Jacotot,¹ Philippe = Vaglio,¹ J=E9r=F4me = Reboul,¹ Tomoko=20 Hirozane-Kishikawa,¹ Qianru=20 Li,¹ Harrison W. = Gabel,¹=20 Ahmed Elewa,¹^||=20 Bridget Baumgartner,⁵ Debra J. = Rose,⁶ Haiyuan = Yu,⁷=20 Stephanie Bosak,⁸ Reynaldo=20 Sequerra,⁸ Andrew = Fraser,⁹=20 Susan E. Mango,¹⁰ William M.=20 Saxton,⁶ Susan = Strome,⁶=20 Sander van den Heuvel,¹¹ Fabio = Piano,¹² Jean=20 Vandenhaute,⁴ Claude=20 Sardet,² Mark = Gerstein,⁷=20 Lynn Doucette-Stamm,⁸ Kristin = C.=20 Gunsalus,¹² J. Wade = Harper,⁵ Michael E.=20 Cusick,¹ Frederick P.=20 Roth,³ David E. Hill,¹^=B6<=
/A>=20 Marc Vidal¹^=B6<=
/A>^#=20

To initiate studies on how protein-protein interaction = (or=20 "interactome")networks relate to multicellular=20 functions, we have mapped alarge fraction of the = Caenorhabditis elegans interactome network.⁼²⁰Starting with a subset of metazoan-specific proteins, = more=20 than4000 interactions were identified from=20 high-throughput, yeasttwo-hybrid (HT=3DY2H) = screens.=20 Independent coaffinity purificationassays = experimentally=20 validated the overall quality of thisY2H data = set.=20 Together with already described Y2H interactions⁼and=20 interologs predicted in silico, the current version = of=20 theWorm Interactome (WI5) map contains $3D~=20$ 5500=20 interactions. Topologicaland biological features = of this=20 interactome network, as wellas its integration = with=20 phenome and transcriptome data sets,lead to = numerous=20 biological hypotheses.

¹ Dana-Farber Cancer Institute and Department = of=20 Genetics, Harvard Medical School, 44 Binney Street, Boston, = MA=20 02115, USA.
² Institut de G=E9n=E9tique = Mol=E9culaire,=20 Centre National de la Recherche Scientifique UMR 5535, 1919 = Route de=20 Mende, 34293 Montpellier Cedex 5, France.
³ = Department=20 of Biological Chemistry and Molecular Pharmacology, Harvard = Medical=20 School, 250 Longwood Avenue, Boston, MA 02115, = USA.
⁴=20 Unit=E9 de Recherche en Biologie Mol=E9culaire, Facult=E9s = Notre-Dame de=20 la Paix, 61 Rue de Bruxelles, 5000 Namur, = Belgium.
⁵=20 Verna and Marrs Department of Biochemistry and Molecular = Biology,=20 Program in Cell and Molecular Biology, Biophysics, and = Biology,=20 Baylor College of Medicine, One Baylor Plaza, Houston, TX = 77030,=20 USA.
⁶ Department of Biology, Indiana = University,=20 Jordan Hall 142, 1001 East Third Street, Bloomington, IN = 47405,=20 USA.
⁷ Department of Molecular Biophysics and=20 Biochemistry and Department of Computer Science, Yale = University,=20 266 Whitney Avenue, New Haven, CT 06520, = USA.
⁸=20 Agencourt Bioscience Corporation, 100 Cummings Center, Suite = 107G,=20 Beverly, MA 01915, USA.
⁹ The Wellcome Trust = Sanger=20 Institute, Wellcome Trust Genome Campus, Hinxton, Cambridge, = CB10=20 1SA, UK.
¹⁰ Huntsman Cancer Institute, = University of=20 Utah, 2000 Circle of Hope, Salt Lake City, UT 84112,=20 USA.
¹¹ Massachusetts General Hospital Cancer = Center,=20 Building 149, 13th Street, Charlestown, MA 02129,=20 USA.
¹² Department of Biology, New York = University,=20 1009 Silver Building, 100 Washington Square East, New York, = NY=20 10003, USA.=20

^* These authors = contributed equally to this work.

=20 Present address: Department of Pathology, Harvard Medical=20 School,200 Longwood Avenue, Boston, MA 02115, = USA.⁼²⁰

=20 Present address: Modul-Bio, 232 Boulevard = Sainte-Marguerite,⁼²⁰13009 Marseille, France.

=20 Present address: INSERM, Unit=E9 119, Institut Paoli = Calmettes,⁼²⁰13009 Marseille, France.

^|| Present = address:=20 Program in Gene Function and Expression, University⁼of=20 Massachusetts, 55 Lake Avenue, North Worcester, MA = 01605,⁼²⁰USA.

^=B6 Present = address: Center=20 for Cancer Systems Biology and Departmentof = Cancer=20 Biology, Dana-Farber Cancer Institute and Department⁼of=20 Genetics, Harvard Medical School, 44 Binney Street, = Boston,⁼²⁰MA 02115, USA.

^# To whom = correspondence=20 should be addressed. E-mail: marc_vidal@dfci.harvard.edu.=20

To further understand biological processes, it is = important⁼²⁰to consider protein functions in the context of = complex=20 molecularnetworks. The study of such networks = requires=20 the availabilityof proteome-wide protein-protein = interaction, or "interactome,"maps. The yeast=20 Saccharomyces cerevisiae has been used to = develop⁼²⁰a eukaryotic unicellular interactome map (= 1=96= 6).=20 Caenorhabditiselegans is an ideal model = for=20 studying how protein networksrelate to = multicellularity.=20 Here we investigate its interactomenetwork with=20 HT-Y2H.

As Y2H baits, we selected a set of 3024 worm predicted=20 proteinsthat relate directly or indirectly to=20 multicellular functions(= 7).=20 Gateway-cloned open reading frames (ORFs) were = available⁼²⁰in the C. elegans ORFeome 1.1 (= 8)=20 for 1978 of these selectedproteins. Of these, 81 = autoactivated the Y2H GAL1::HIS3 reporter⁼gene as=20 Gal4 DNA binding domain fusions (DB-X), and 24 others⁼²⁰conferred toxicity to yeast cells. The remaining 1873=20 baitswere screened against two different Gal4 = activation=20 domain libraries(AD-wrmcDNA and AD-ORFeome1.0), = each=20 with distinct, yet complementary,advantages (= 7).⁼²⁰

We maximized the specificity of the Y2H system by = applying=20 stringentexperimental and bioinformatics = criteria (fig.=20 S1). To eliminateinteractions that originated = from=20 nonspecific promoter activation,we only = considered=20 DB-X=96AD-Y pairs if they activated atleast two = out of=20 three different Gal4-responsive promoters.⁼Positives were=20 subsequently retested in fresh yeast cells, and⁼their=20 AD-Y identities were determined with interaction = sequence⁼²⁰tags (ISTs) obtained by sequencing the corresponding=20 polymerasechain reaction (PCR) products (= 9).=20 The AD-Y reading frame wasverified for each IST = to avoid=20 the recovery of out-of-framepeptides. In total, = 16,000=20 ISTs were obtained.

Having applied those criteria, we subdivided the=20 interactionsinto three confidence classes (fig. = S1):=20 those that were foundat least three times = independently=20 and for which the AD-Y junctionis in frame = ("Core-1,"=20 858 interactions); those in frame foundfewer = than three=20 times and that passed the retest ("Core-2,"1299=20 interactions); and all other Y2H interactions found in⁼²⁰our screens ("Non-Core," 1892 interactions). The Core = data=20 set(Core-1 and Core-2) contains 2157 = high-confidence=20 interactionsbetween 502 DB-X baits and 1039 AD-Y = preys.=20 After collapsing22 interactions that occur in = both=20 DB-X=96AD-Y and DB-Y=96AD-Xconfigurations, a = total of 2135=20 unique interactions are obtained(table S1). The = Non-Core=20 data set contains 1892 interactionsbetween 531 = DB-X=20 baits and 1395 AD-Y preys. Altogether, Coreand = Non-Core=20 constitute the "First-Pass" data set, with a total⁼of=20 4027 distinct interactions. Out of 2783 and 1505 = interactions⁼²⁰found with AD-wrmcDNA and AD-ORFeome1.0, respectively, = 239=20 interactionswere identified with both = libraries.⁼²⁰

To estimate the coverage of the HT-Y2H data sets, we=20 manuallysearched the baits screened here for = known=20 interactors in WormPD(10).=20 This search gave rise to 108 interactions, referred to⁼as=20 the "literature" data set (table S1). The Core and = Non-Core⁼²⁰data sets recapitulated eight and two interactions in = this=20 benchmarkdata set, respectively. Thus, our = overall rate=20 of coverage forthe First-Pass data set is $3D~=20$ 10% [(8 +=20 2)/108)].

To evaluate the accuracy of the HT-Y2H data sets, we=20 reasonedthat interactions detected in two = different=20 binding assays areunlikely to be experimental=20 false-positives. A representativesample of Y2H=20 interaction pairs from each of these three subsets⁼(33=20 for Core-1, 62 for Core-2, and 48 for Non-Core) was = randomly⁼²⁰selected, and tested in a coaffinity purification = (co-AP)=20 glutathioneS-transferase (GST) pull-down = assay=20 (Fig= .=20 1). Bait and preyORFs were transiently = transfected=20 into 293T cells as GST-baitand Myc-prey fusions, = respectively. For potential interactionpairs = where both=20 proteins were expressed at detectable levels,the = co-AP=20 success rates were 14 out of 17 (82%) for Core-1,⁼17 out=20 of 29 (59%) for Core-2, and 8 out of 23 (35%) for = Non-Core⁼²⁰(table S2). These data demonstrate that our three data = setscontain a large proportion of highly = reliable=20 interactions andcorroborate their expected = relative=20 qualities.

= Fig. 1.=20 Coaffinity purification assays. Shown are 10 examples = from the=20 Core-1, Core-2, and Non-Core data sets. The top panels = show=20 Myc-tagged prey expression after affinity purification = on=20 glutathione-Sepharose, demonstrating binding to = GST-bait. The=20 middle and bottom panels show expression of Myc-prey = and=20 GST-bait, respectively. The lanes alternate between = extracts=20 expressing GST-bait proteins (+) and GST alone (=96). = ORF pairs=20 are identified in table S1 with the lane number = corresponding=20 to the order in which they appear in the table. = [Vi= ew=20 Larger Version of this Image (60K GIF = file)]=20

In addition to experimental screens, we also performed = in=20 silicosearches for potentially conserved=20 interactions, or "interologs,"whose orthologous = pairs=20 are known to interact in one or moreother = species (= 9,=20 11).=20 Starting from a high-confidence yeastinteraction = data=20 set (= 7),=20 reciprocal best-hit BLAST searches⁼(E-value =20 10⁼⁹⁶⁶) were performed against the worm = predicted⁼²⁰proteome. In all, 949 potential worm interologs were=20 identified,constituting the interologs data set = (= 7).=20 In addition, the Y2Hinteractome maps that have = been=20 previously generated for individualbiological = processes=20 (including vulval development, protein⁼degradation, DNA=20 damage response, and germline formation) (= 9,⁼²⁰12=9614)=20 were pooled to define the "scaffold" data set.⁼The=20 HT-Y2H, literature, interologs, and scaffold data sets = were⁼²⁰combined into Worm Interactome version 5 (WI5), = containing=20 5534interactions and connecting 15% of the C. = elegans proteome (tableS1). WI5 gives rise = to a=20 giant network component of 2898 nodesconnected = by 5460=20 edges (Fig= .=20 2A). Similar to other biologicalnetworks (15),=20 the worm interactome network exhibits small-world⁼and=20 scale-free properties (Fig= .=20 2B) (= 7).=20 This data set alsoallowed us to analyze whether = or not=20 evolutionary recent proteinstend to = preferentially=20 interact with each other rather thanwith ancient = proteins. We subdivided the nodes of the network⁼into=20 three classes: 748 proteins with a clear ortholog in = yeast⁼²⁰("ancient"), 1314 proteins with a clear ortholog in=20 Drosophila,Arabidopsis, or humans but not = in=20 yeast ("multicellular"), and836 proteins with no = detectable ortholog outside of C. elegans⁼("worm")=20 (= 7).=20 These three groups seem to connect equally well⁼with each=20 other (Fig= .=20 2C), which suggests that new cellular⁼functions rely=20 on a combination of evolutionarily new and ancient⁼²⁰elements, consonant with the classic proposal of = evolution=20 asa tinkerer that modifies and adds to = pre-existing=20 structuresto create new ones (16).⁼²⁰

= Fig. 2.=20 Analysis of the WI5 network. (A) Nodes = (representing=20 proteins) are colored according to their phylogenic = class:=20 ancient (red), multicellular (yellow), and worm = (blue). Edges=20 represent protein-protein interactions. The inset = highlights a=20 small part of the network. (B) The proportion = of=20 proteins, P(k), with different numbers of = interacting=20 partners, k, is shown for C. elegans = proteins=20 used as baits or preys and for S. cerevisiae = proteins.=20 (C) The pie charts show the proportion of = interacting=20 preys found in Y2H screens that fall into each = phylogenic=20 class. Also shown is the distribution of all preys = found and=20 all preys searched in the AD-ORFeome 1.0 library. = (D)=20 Overlap with transcriptome (see text) (18),=20 Pearson correlation coefficients (PCCs) were = calculated and=20 graphed for each pair of proteins in the interaction = data sets=20 and their corresponding randomized data sets. The red = area to=20 the right corresponds to interactions that show a = significant=20 relationship to expression profiling data (P = <=20 0.05). (E) Interactions between proteins in = Topomap=20 mountain 29 (18).=20 The dash-circled proteins belong to the same = paralogous family=20 (sharing more than 80% homology) and are thus = collapsed into=20 one set of interactions. (F) Proportion of = interaction=20 pairs where both genes are embryonic lethal (P = <=20 10⁼⁹⁶⁷). [Vi= ew=20 Larger Version of this Image (57K GIF = file)]=20

Previous studies have related interactome data with=20 genome-wideexpression (transcriptome) and = phenotypic=20 profiling (phenome)data in S. cerevisiae = (17).=20 To investigate to what extent different⁼functional=20 genomic assays should correlate in the context of⁼a=20 multicellular organism, we overlapped WI5 with C.=20 eleganstranscriptome and phenome data = sets.⁼²⁰

Based on a C. elegans transcriptome compendium = data set=20 (18),⁼²⁰we calculated Pearson correlation coefficients (PCCs) = for=20 genepairs involved in Y2H interactions and = compared them=20 with randomizeddata sets (Fig= .=20 2D). About 150 Core interactions (9.5%) = corresponded⁼²⁰to gene pairs with significantly higher PCCs than = expected=20 fromrandom (P < 0.05) (table S3). = Thus, those=20 pairs can be considered"more biologically = likely"=20 because two completely independentapproaches = point to a=20 functional relationship between the corresponding⁼genes.=20 The remaining pairs are labeled "without additional = evidence."⁼²⁰Indeed, it is important to note that lack of = coexpression=20 doesnot suggest that the corresponding = interactions are=20 irrelevant.Indeed, 75% of literature pairs, = defined as=20 biologically relevant,do not correlate with=20 transcriptome data (Fig= .=20 2D).

We also systematically examined Y2H interactions where = both⁼²⁰proteins belong to common C. elegans expression = clusters, or"Topomap mountains" (18).=20 As an example, a highly connectedsubnetwork = derived from=20 mountain 29 (Fig= .=20 2E) contains sevenproteins (ABU-1, ABU-8, = ABU-11,=20 PQN-5, PQN-54, PQN-57, and PQN-71)that share = common=20 domains (DUF139 domain and cysteine-rich repeat).⁼²⁰Furthermore, these proteins are all expressed in the=20 pharynx(19=9621),=20 which suggests that they may act together in⁼pharynx=20 function or development.

For relatively small-scale S. cerevisiae and C. = elegans interactomedata sets, physical = interactions=20 pointed to genes that sharesimilar phenotypes = when=20 knocked out or knocked down (17).=20 Toevaluate this idea for the C. elegans=20 interactome, we assembleda collection of = phenotypic data=20 based on RNA interference (RNAi)knockdown = experiments=20 from WormBase (= 7,=20 22),=20 and we calculatedthe percentage of protein = interaction=20 pairs that share embryoniclethal phenotypes for = the=20 interaction data sets and their randomized⁼controls and=20 found a twofold enrichment for the Core and First-Pass⁼²⁰data sets (Fig= .=20 2F). Similar correlations were also observed⁼for the=20 maternal sterile phenotype and four groups of = postembryonic⁼²⁰phenotypes (23).=20 Because protein-protein interactions for which⁼both genes=20 are coexpressed across many conditions and show similar⁼phenotype(s) when knocked down should be considered=20 particularlylikely, the global correlations = described=20 above illustrate howbiological hypotheses can be = derived=20 from overlapping interactome,transcriptome, and = phenome=20 data sets (table S3).

In S. cerevisiae, two proteins that have many = interaction=20 partnersin common are more likely to be related=20 biologically (24).=20 Weexamined the C. elegans interactome = network for=20 the presenceof highly connected neighborhoods by = determining the mutualclustering coefficient = between=20 proteins in the network (tableS4) (24).=20 As an example, we examined the properties of one of⁼the=20 clusters containing such a high-scoring protein pair:=20 VAB-3/C49A1.4(Fig= .=20 3). VAB-3 and C49A1.4 have strong similarity to the=20 productsof the Drosophila genes = eyeless=20 (ey) and eyes absent (eya),⁼²⁰respectively, but not to each other. EY and EYA are=20 componentsof a conserved network of = transcription=20 factors that regulateeye development (25).⁼²⁰

= Fig. 3.=20 Graphical representation of a highly interconnected = subnetwork=20 around VAB-3 and C49A 1.4. Biological functional = classes were=20 obtained from WormPD (10).=20 [Vi= ew=20 Larger Version of this Image (65K GIF = file)]=20

VAB-3 and C49A1.4 are part of a highly interconnected=20 subnetworkin WI5 (Fig= .=20 3) with proteins that are known or suspected to⁼be=20 functionally linked to VAB-3 and C49A1.4, or to their=20 respectiveorthologs in other organisms. These = include=20 (i) EGL-27, whichnegatively regulates MAB-5 in=20 hermaphrodites (26)=20 and is linkedto MAB-5 through C49A1.4; (ii) = WRT-2, an=20 interactor of C49A1.4with similarity to=20 Drosophila Hedgehog, which alleviates repression⁼of eya expression by Cubitus interruptus = (27);=20 and (iii) CEH-33and CEH-35, two of four members = of the=20 sine oculis homeoboxgene family, which is = involved in the same Drosophila regulatory⁼network=20 of transcription factors as ey and eya (28).=20 Finally,eight proteins in this cluster are = annotated in=20 WormPD as involvedin membrane function, which = suggests a=20 functional relationshipbetween the = eyeless=20 transcription network and membrane activity.

Together with interologs and previously described=20 interactions,the Y2H data set provides = functional=20 hypotheses for thousandsof uncharacterized = proteins in=20 the C. elegans proteome. Integrationwith = other=20 functional genomic data indicates that the correlation⁼²⁰between transcriptome and interactome data, although=20 significant,is lower than what would be expected = from=20 observations madein yeast (17).=20 This observation applies to both the Y2H dataset = described here and well-characterized worm interactions⁼from the literature-derived data set (Fig= .=20 2D). This may occurbecause, unlike = unicellular=20 organisms, metazoans are complicatedby the fact = that=20 biological processes may occur differentlyin the = organism, across various organs, tissues, or single = cells.⁼²⁰

Our current interactome map also illustrates how a human=20 interactomeproject would benefit from an ORFeome = cloning=20 project usingrecombinational cloning systems, = such as=20 Gateway (= 8).=20 Indeed,recombinationally cloned ORFs can be = shuffled at=20 will into variousexpression vectors needed for = different=20 types of protein interactionassays, as = exemplified by=20 our ability to transfer bait- andprey-encoding = ORFs into=20 Myc- and GST-tagged vectors to validateY2H=20 interactions.

References and=20 Notes

1. E. M. Marcotte et = al.,=20 Science 285, 751 (1999).[Abstract/Free = Full Text]

2. M. Pellegrini, E. M. = Marcotte, M. J.=20 Thompson, D. Eisenberg, T. O. Yeates, Proc. Natl. = Acad.=20 Sci. U.S.A. 96, 4285 (1999).[Abstract/Free = Full Text]

3. P. Uetz et al., = Nature=20 403, 623 (2000).[CrossRef][ISI][Medline]
4. T. Ito et al., = Proc. Natl.=20 Acad. Sci. U.S.A. 98, 4569 (2001).[Abstract/Free = Full Text]

5. Y. Ho et al., = Nature=20 415, 180 (2002).[CrossRef][ISI][Medline]

6. A. C. Gavin et al., = Nature 415, 141 (2002).[CrossRef][ISI][Medline]

7. See supporting material on = Science Online.

8. J. Reboul et al., = Nat.=20 Genet. 34, 35 (2003).[CrossRef][ISI][Medline]

9. A. J. M. Walhout, R. = Sordella, X.=20 Lu, J. L. Hartley, Science 287, 116 = (2000).[Abstract/Free = Full Text]

10. M. C. Costanzo et = al.,=20 Nucleic Acids Res. 29, 75 (2001).[Abstract/Free = Full Text]

11. L. R. Matthews et = al.,=20 Genome Res. 11, 2120 (2001).[Abstract/Free = Full Text]

12. A. Davy et al., = EMBO=20 Rep. 2, 821 (2001).[Abstract/Free = Full Text]

13. S. J. Boulton et = al.,=20 Science 295, 127 (2002).[Abstract/Free = Full Text]

14. A. J. M. Walhout et = al.,=20 Curr. Biol. 12, 1952 (2002).[CrossRef][ISI][Medline]

15. S. H. Strogatz, = Nature=20 410, 268=20 (2001).[CrossRef][ISI][Medline]

16. F. Jacob, Science = 196,=20 1161 (1977).[ISI][Medline]

17. H. Ge, A. J. M. Walhout, = M. Vidal,=20 Trends Genet. 19, 551 (2003).[CrossRef][ISI][Medline]

18. S. K. Kim et al.,=20 Science 293, 2087 (2001).[Abstract/Free = Full Text]

19. J. Gaudet, S. E. Mango,=20 Science 295, 821 (2002).[Abstract/Free = Full Text]

20. M. Hanazawa, M. Mochii, N. = Ueno, Y.=20 Kohara, Y. Iino, Proc. Natl. Acad. Sci. U.S.A.=20 98, 8686=20 (2001).[Abstract/Free = Full Text]

21. F. Urano et al., = J. Cell=20 Biol. 158, 639 (2002).[Abstract/Free = Full Text]

22. L. Stein, P. Sternberg, R. = Durbin,=20 J. Thierry-Mieg, J. Spieth, Nucleic Acids Res.=20 29, 82 (2001).[Abstract/Free = Full Text]

23. H. Ge, unpublished = observations.

24. D. S. Goldberg, F. P. = Roth, Proc.=20 Natl. Acad. Sci. U.S.A. 100, 4372 = (2003).[Abstract/Free = Full Text]

25. S. Wawersik, R. L. Maas, = Hum.=20 Mol. Genet. 9, 917 (2000).[Abstract/Free = Full Text]

26. Q. Ch'ng, C. Kenyon,=20 Development 126, 3303 (1999).[Abstract/Free = Full Text]

27. K. S. Pappu et al., = Development 130, 3053 (2003).[Abstract/Free = Full Text]

28. C. Dozier, H. Kagoshima, = G. Niklaus,=20 G. Cassata, T. R. Burglin, Dev. Biol. = 236, 289=20 (2001).[CrossRef][ISI][Medline]
29. We thank members of M.V.'s = laboratory for their input and help; C. Boone, G. = Achaz and D.=20 Allinger for discussions; the sequencing staff at = Agencourt=20 Biosciences for technical assistance; the ORFeome = meeting=20 participants for their input; C. McCowan, T. = Clingingsmith,=20 and C. You for administrative assistance; and C. = Fraughton for=20 laboratory support. This work was supported by a grant = from=20 NHGRI and NIGMS awarded to M.V. Other support includes = an NSF=20 award (K.C.G.); NIGMS grants (S.v.d.H., S.E.M., = J.W.H.); a=20 Department of Defense Predoctoral Fellowship (B.B.); = an award=20 from the Ligue Nationale Contre Le Cancer (=E9quipe = labelis=E9e)=20 (C.S., A.C.); an institutional HHMI grant (F.P.R., = G.F.B); and=20 Fellowships from EMBO (P.-O.V.), NSF (D.S.G), Ryan, = Milton=20 (S.L.W.), Fu (L.V.Z.), and Leukemia Research = Foundation=20 (M.E.).

Supporting Online = Material⁼²⁰

www.scien= cemag.org/cgi/content/full/1091403/DC1⁼²⁰

Material and Methods

Fig. S1

Table S1 to S5

References

11 September 2003; accepted 1 December=20 2003
10.1126/science.1091403
Include this information = when=20 citing this paper.

A= bstract=20 of this Article

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Down= load=20 to Citation Manager

Alert me when:
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Li,=20 S. || Vidal,=20 M.

This=20 article appears in the following Subject=20 Collections:
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All=20 Versions of this Article:
303/5657/540 (most = recent)

1091403v1<= /A>
Volume 303, Number 5657, Issue of = 23 Jan 2004,=20 pp. 540-543.
Copyright =A9 2004 by The American Association for = the=20 Advancement of Science. All rights reserved.=20

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