AUTHOR INDEX VOLUME 137 A Beisel, C. See Izaurralde, Jarmolowski, Beisel, Mattaj, Dreyfuss, and Fischer. Abney, J.R., Cutler, B., Fillbach, M.L., Axelrod, D., and Scalettar, Bellen, HJ. See Littleton, Bhat, and Bellen. B.A. Chromatin dynamics in interphase nuclei and its implica¬ Bellocq, J.-P. See Okada, Tomasetto, Lutz, Bellocq, Rio, and Basset. tions for nuclear structure. 1459. Benashski, S.E. See Patel-King, Benashski, Harrison, and King. Abu-Amer, Y., Ross, F.P.., Schlesinger, Tondravi, M.M., and Bennett, V. See Garver, Ren, Tuvia, and Bennett. Teitelbaum, S.L. Substrate recognition by osteoclast precursors Berry, L.D., and Gould, K.L. Fission yeast diml* encodes a function¬ induces c-src/microtubule association. 247. ally conserved polypeptide essential for mitosis. 1337. Adachi, H., Takahasbi, Y., Hasebe, T., Shirouzu, M., Yokoyama, S., Beschin, A. See Magez, Geuskens, Beschin, del Favero, Verschueren. and Sutoh, K. Dictyostelium IQGAP-related protein specifically Lucas, Pays, and de Baetselier. involved in the completion of cytokinesis. 891. Betz, H. See Lenz-Bohme, Wismar, Fuchs, Reifegerste, Buchner, Agard, D.A. See Bass, Marshall, Sedat, Agard, and Cande. Betz, and Schmitt. .Agarraberes, F.A,, Terlecky, S.R., and Dice, J.F. An intralysosomal Bhat, M.A. See Littleton, Bhat, and Bellen. hsp70 is required for a selective pathway of lysosomal protein Bianchi, M.E. See Falciola, Spada, Calogero, Langst, Voit, Grummt, degradation. 825. and Bianchi. Ager, A. See del Pozo, Cabanas, Montoya, Ager, Sanchez-Mateos, Bijimakers, M.-JJ.E., Isobe-Nakamura, M., Ruddock, LJ., and and Sanchez-Madrid. Marsh, M. Intrinsic signals in the unique domain target p56'''‘ to Alnemri, E.S. See MacFarlane, Cain, Sun, Alnemri, and Cohen. the plasma membrane independently of CD4.1029. Altschuler, Y. See Pollack, Barth, Altschuler, Nelson, and Mostov. Bingham, J.B. See Blocker, Severin, Burkhardt, Bingham. Yu, Olivo, Amati, P. See Anastasi, Giordano, Sthandier, Gambarotta, Maione, Schroer, Hyman, and Griffiths. Comoglio, and Amati. Bissell, MJ. See Weaver, Petersen, Wang, Larabell, Briand. Damsky, Amherdt, M. See Paek, Orci, Ravazzola, Erdjument-Bromage, and Bissell. Amherdt. Tempst, Sollner, and Rothman. Blocker, A., Severin, F.F., Burkhardt, J.K., Bingham, J.B., Yu, H., Amigorena, S. See Brachet, Raposo, Amigorena, and Mellman. Olivo, J.-C., Schroer, T.A., Hyman, A.A., and Griffiths, G. Mo¬ Anastasi, S,, Giordano, S,, Sthandier, O,, Gambarotta, G,, Maione, lecular requirements for bi-directional movement of phago¬ R., Comoglio, P,, and Amati, P. A natural hepatocyte growth somes along microtubules. 113. factor/scatter factor autocrine loop in myoblast cells and the ef¬ Bloom, G.S. See Bashour, Fullerton, Hart, and Bloom. fect of the constitutive met kinase activation on myogenic differ¬ Bodoor, K. See Bastos, de Pouplana, Enarson, Bodoor, and Burke. entiation. 1057. Bowers, C.W. See Hungerford, Hoeffler, Bowers, Dahm, Falchetto, Ando-Akatsuka, Y. See Sakakibara, Furuse, Saitou, Ando-Akatsuka, Shabanowitz, Hunt, and Little. and Tsukita. Brachet, V., Raposo, G., Amigorena, S., and Mellman, I. li chain con¬ Andrews, N.W. See Rodriguez, Webster, Ortego, and Andrews. trols the transport of major histocompatibility complex class II Armandola, E.A. See Mariani, Matiba, Armandola, and Krammer. molecules to and from lysosomes. 51. Amdt-Jovin, DJ. See Buchenau, Saumweber, and Arndt-Jovin. Braga, V.M.M., Machesky, L.M., Hall, A., and Hotchin, N.A. The Arvan, P. See Kuliawat, Klumperman, Ludwig, and Arvan. small GTPases Rho and Rac are required for the establishment Axelrod, D. See Abney, Cutler, Fillbach, Axelrod, and Scalettar. of cadherin-dependent cell-cell contacts. 1421. Ayscough, K.R., Stryker, J., Pokala, N., Sanders, M., Crews, P,, and Brandazza, A. See Franco, laccarino, Chiaradonna, Brandazza, Drubin, D.G. High rates of actin filament turnover in budding lavarone, Mastronicola, Nolli, and Stoppelli. yeast and roles for actin in establishment and maintenance of Brandenberger, R. See Denzer, Brandenberger, Gesemann, Chiquet, cell polarity revealed using the actin inhibitor latrunculin-A. 399. and Ruegg. Bredesen, D.E. See Longo, Ellerby, Bredesen, Valentine, and Gralla. Breier, G. See Sabapathy, Pepper, Kiefer, Mohle-Steinlein, Tacchini- Cottier, Fetka, Breier, Risau, Carmeliet, Montesano, and Wagner. Briand, P. See Weaver, Petersen, Wang, Larabell, Briand, Damsky, B and Bissell. Brockhausen, I. See Whitehouse, Burchell, Gschmeissner, Brockhausen. Baker, C.A. See Geng, Raub, Baker, Sawada, Ma, and Elhammer. Lloyd, and Taylor-Papadimitriou. Balch, W.E. See Tisdale, Plutner, Matteson, and Balch. Brun, R. See Ruepp, Furger, Kurath. Kunz Renggli, Hemphill, Brun, Barth, A.I.M. See Pollack, Barth, Altschuler, Nelson, and Mostov. and Roditi. Bashour, A.-M., Fullerton, A.T., Hart, MJ., and Bloom, G.S. Bruyneel, E. See van Hengel, Gohon, Bruyneel, Vermeulen, IQGAPl, a rac- and Cdc42-binding protein, directly binds and Cornelissen, Mareel, and van Roy. cross-links microfilaments. 1555. Buchenau, P., Saumweber, H., and Amdt-Jovin, DJ. The dynamic Bass, H.W,, Marshall, W.F,, Sedat, J.W., Agard, D.A,, and Cande, nuclear redistribution of an hnRNP K-homologous protein dur¬ W.Z. Telomeres cluster de novo before the initiation of synapsis; ing Drosophila embryo development and heat shock. Flexibility A three-dimensional spatial analysis of telomere positions be¬ of transcription sites in vivo. 291. fore and during meiotic prophase. 5. Buchner, E. See Lenz-Bohme, Wismar, Fuchs, Reifegerste, Buchner, Basset, P. See Okada, Tomasetto, Lutz, Bellocq, Rio, and Basset. Betz, and Schmitt. Bassnett, S., and Mataic, D. Chromatin degradation in differentiating Burchell, J. See Whitehouse, Burchell, Gschmeissner, Brockhausen, fiber cells of the eye lens. 37. Lloyd, and Taylor-Papadimitriou. Bastos, R., de Pouplana, L.R., Enarson, M., Bodoor, K., and Burke, B. Burke, B. See Bastos, de Pouplana, Enarson, Bodoor, and Burke. Nup84, a novel nucleoporin that is associated with CAN/Nup214 Burkhardt, J.K. See Blocker, Severin, Burkhardt. Bingham, Yu, on the cytoplasmic face of the nuclear pore complex. 989. Olivo, Schroer, Hyman, and Griffiths. Beattie, G.M. See Ptasznik, Beattie, Mally, Cirulli, Lopez, and Hayek. Butler, M.H., David, C., Ochoa, G.-C., Freyberg, Z., Daniell, L., Grabs, Becker, K.D., Gottshall, K.R., Hickey, R., Perriard, J.-C., and Chien, D., Cremona, O., and De Camilli, P. Amphiphysin II (SH3P9; K.R. Point mutations in human p cardiac myosin heavy chain BINl), a member of the amphiphysin/Rvs family, is concentrated have differential effects on sarcomeric structure and assembly: in the cortical cytomatrix of axon initial segments and nodes of An ATP binding site change disrupts both thick and thin fila¬ Ranvier in brain and around T tubules in skeletal muscle. 1355. ments, whereas hypertrophic cardiomyopathy mutations display Buttle, K.F. See McEwen, Heagle, Cassels, Buttle, and Rieder. normal assembly. 131. Byers, B. See McDonald and Byers. Author Index 1685 c de Baetselier, P. See Magez, Geuskens, Beschin, del Favero, Verschueren, Lucas, Pays, and de Baetselier. De Camilli, P. See Butler, David, Ochoa, Freyberg, Daniell, Grabs, Cabanas, C. See del Pozo, Cabanas, Montoya, Ager, Sanchez-Mateos, Cremona, and De Camilli. and Sanchez-Madrid. Deerinck, TJ. See Huang, Deerinck, Ellisman, and Spector. Cai, S. See Klemke, Cai, Giannini, Gallagher, de Lanerolle, and Cheresh. DeFranco, D.B. See Yang, Liu, and DeFranco. Cain, K. See MacFarlane, Cain, Sun, Alnemri, and Cohen. de Lanerolle, P. See Klemke, Cai, Giannini, Gallagher, de Lanerolle, Calogero, S. See Falciola, Spada, Calogero, Langst, Voit, Grummt, and Cheresh. and Bianchi. del Favero, H. See Magez, Geuskens, Beschin, del Favero, Camphausen, R.T. See Goetz, Greif, Ding, Camphausen, Howes, Verschueren, Lucas, Pays, and de Baetselier. Comess, Snapp, Kansas, and Luscinskas. del Pozo, M.A,, Cabanas, Montoya, M.C,, .4ger, A,, Sanchez-Mateos, Cande, W.Z. See Bass, Marshall, Sedat, Agard, and Cande. P., and Sanchez-Madrid, F. ICAMs redistributed by chemokines Carmeliet, P. See Sabapathy, Pepper, Kiefer, Mdhle-Steinlein, to cellular uropods as a mechanism for recruitment of T lympho¬ Tacchini-Cottier, Fetka, Breier, Risau, Carmeliet, Montesano, cytes. 493. and Wagner. Deng, C. See Saunders, Hornack, Lengyel, and Deng. Carmo-Fonseca, M. See Gama-Carvalho, Krauss, Chiang, Valcarcel, Denzer, A J., Brandenberger, R., Gesemann, M., Cbiquet, M., and Green, and Carmo-Fonseca. Ruegg, M.A. Agrin binds to the nerve-muscle basal lamina via Cassels, G.O. See McEwen, Heagle, Cassels, Buttle, and Rieder. laminin. 671. Cereghino, J.L. See Seaman, Marcusson, Cereghino, and Emr. de Pouplana, L.R. See Bastos, de Pouplana, Enarson, Bodoor, and Chang, F., Drubin, D., and Nurse, P. cdcl2p, a protein required for cytokinesis in fission yeast, is a component of the cell division Burke. Dice, J.F. See Agarraberes, Terlecky, and Dice. ring and interacts with profilin. 169. Ding, H. See Goetz, Greif, Ding, Camphausen, Howes, Comess, Chang, T.-H. See Xie, Laird, Chang, and Hu. Chasis, J.A. See Krauss, Larabell, Lockett, Gascard, Penman, Snapp, Kansas, and Luscinskas. DiPersio, C.M., Hodivala-Dilke, K.M., Jaenisch, R., Kreidberg, J.A., Mohandas, and Chasis. and Hynes, R.O. a3(31 integrin is required for normal develop¬ Chen, L.I., Webster, M.K., Meyer, A.N., and Donoghue, DJ. Trans¬ membrane domain sequence requirements for activation of the ment of the epidermal basement membrane. 729. Dittmar, H. See Weiss, Sleeman, Renkl, Dittmar, Termeer, Taxis, plSS"^receptor tyrosine kinase. 619. Howells, Hofmann. Kohler, Schbpf, Ponta, Herrlich, and Simon. Cheng, D. See Trapp, Nishiyama, Cheng, and Macklin. Cheresh, D.A. See Klemke, Cai, Giannini, Gallagher, de Lanerolle, do Carmo Avides, M. See Saunders, do Carmo Avides, Howard, and Cheresh. Gonzalez, and Glover. Chiang, L. See Gama-Carvalho, Krauss, Chiang, Valcarcel, Green, Donoghue, DJ. See Chen, Webster, Meyer, and Donoghue. and Carmo-Fonseca. Dreyfuss, G. See Izaurralde, Jarmolowski, Beisel, Mattaj, Dreyfuss, Chiaradonna, F. See Franco, laccarino, Chiaradonna, Brandazza, and Fischer. lavarone, Mastronicola, Nolli, and Stoppelli. Drubin, D. See Chang, Drubin, and Nurse. Chien, K.R. See Becker, Gottshall, Hickey, Perriard, and Chien. Drubin, D,G. 5ee Ayscough, Stryker, Pokala, Sanders, Crews, and Chiquet, M. See Denzer, Brandenberger, Gesemann, Chiquet, and Drubin. Ruegg. Duband, J.-L. See Monier-Gavelle and Duband. Christopoulou, L. See Simpson. Peden, Christopoulou, and Robinson. Dumin, J.A. See Pilcher, Dumin, Sudbeck, Krane, Welgus, and Parks. Cirulli, V. See Ptasznik, Beattie, Mally, Cirulli, Lopez, and Hayek. Clark, R.A., Erickson, H.P., and Springer, T.A. Tenascin supports lymphocyte rolling. 755. E Cohen, G.M. See MacFarlane, Cain, Sun, Alnemri, and Cohen. CoUard, J.G. See Michiels, Stam. Hordijk, van der Kammen. Ruuls-Van Stalle, Feltkamp, and Collard. Eigenthaler, M. See Kashiwagi, Schwartz, Eigenthaler, Davis, Ginsberg, Collins, R.N. See Walch-Solimena, Collins, and Novick. and Shattil. Comess, K.M. See Goetz, Greif, Ding, Camphausen, Howes, Comess, Eitzen, G.A., Szilard, R.K., and Rachubinski, R.A. Enlarged peroxi¬ Snapp, Kansas, and Luscinskas. somes are present in oleic acid-grown Yarrowia lipolytica over¬ Comoglio, P. See Anastasi, Giordano, Sthandier, Gambarotta, expressing the PEX16 gene encoding an intraperoxisomal pe¬ Maione, Comoglio, and Amati. ripheral membrane peroxin. 1265. Copeland, N.G. See Miner, Patton, Lentz. Gilbert, Snider, Jenkins, Elhammer, A.P. See Geng, Raub, Baker, Sawada, Ma, and Elhammer. Copeland, and Sanes. Ellerby, L.M, See Longo, Ellerby, Bredesen, Valentine, and Gralla. Corey, D.P. See Hasson, Gillespie, Garcia, MacDonald, Zhao, Yee, Ellisman, M.H. See Huang, Deerinck, Ellisman, and Spector. Mooseker, and Corey. Emr, S.D, See Seaman, Marcusson, Cereghino, and Emr. Comelissen, M. See van Hengel, Gohon, Bruyneel, Vermeulen, Enarson, M, See Bastos, de Pouplana, Enarson, Bodoor, and Burke. Cornelissen. Mareel, and van Roy. Endow, S.A., and Komma, DJ. Spindle dynamics during meiosis in Corsi, A.K., and Schekman, R. The lumenal domain of sec63p stimu¬ Drosophila oocytes. 1321. lates the ATPase activity of BiP and mediates BiP recruitment Erdjument-Bromage, H. See Paek, Orci, Ravazzola, Erdjument- to the translocon in Saccharomyces cerevisiae. 1483. Bromage, Amherdt, Tempst, Sollner, and Rothman. Couture, C. See Farschon, Couture, Mustelin, and Newmeyer. Erickson, H.P. See Clark, Erickson, and Springer. Craven, R.A. See Saris, Holkeri, Craven, Stirling, and Makarow. Cremona, O. See Butler, David, Ochoa, Freyberg, Daniell, Grabs, Cremona, and De Camilli. Crews, P. See Ayscough, Stryker, Pokala, Sanders, Crews, and Drubin. F Cutler, B. See Abney, Cutler, Fillbach, Axelrod, and Scalettar. Falchetto, R. See Hungerford, Hoeffler, Bowers. Dahm, Falchetto, Shabanowitz, Hunt, and Little. Falciola, L., Spada, F., Calogero, S., Langst, G., Voit, R., Grummt, I., and Bianchi, M.E. High mobility group 1 protein is not stably as¬ D sociated with the chromosomes of somatic cells. 19. Fambrough, D.M. See Gough and Fambrough. Dahm, L.M, See Hungerford. Hoeffler, Bowers, Dahm, Falchetto, Fanger, C.M. See Hoth, Fanger, and Lewis. Shabanowitz, Hunt, and Little. Farschon, D.M., Couture, C., Mustelin, T., and Newmeyer, D.D. Damsky, C. See Weaver, Petersen, Wang, Larabell, Briand, Damsky, Temporal phases in apoptosis defined by the actions of Src ho¬ and Bissell. mology 2 domains, ceramide, Bcl-2, interleukin-1 p converting Daniell, L. See Butler, David, Ochoa, Freyberg, Daniell, Grabs, enzyme family proteases, and a dense membrane fraction. 1117. Cremona, and De Camilli. Feltkamp, C.A. See Michiels, Stam, Hordijk, van der Kammen, David, C. See Butler, David, Ochoa, Freyberg, Daniell, Grabs, Ruuls-Van Stalle, Feltkamp, and Collard. Cremona, and De Camilli. Ferrell, J.E., Jr. See Wang, Zhai, and Ferrell. Davis, K,A. See Kashiwagi, Schwartz. Eigenthaler, Davis, Ginsberg, Fetka, 1. See Sabapathy, Pepper, Kiefer, Mohle-Steinlein, Tacchini- and Shattil. Cottier, Fetka, Breier, Risau, Carmeliet, Montesano, and Wagner. The Journal of Cell Biology, Volume 137, 1997 1686 Fiers, W. See Vandevoorde, Haegeman, and Fiers. Gohon, L. See van Hengel, Gohon, Bruyneel, Vermeulen, Comelissen, Fillbach, M.L. See Abney, Cutler, Fillbach, Axelrod, and Scalettar. Mareel, and van Roy. Fischbach, G. See Vartanian, Goodearl. Viehdver, and Fischbach. Goldflne, H. See Marquis, Goldfine, and Portnoy. Fischer, U. See Izaurralde, Jarmolowski, Beisel, Mattaj, Dreyfuss, Gonzalez, C. See Saunders, do Carmo Avides, Howard, Gonzalez, and Fischer. and Glover. Fischer von Mollard, G., Nothwehr, S.F,, and Stevens, T.H. The yeast Goodearl, A. See Vartanian, Goodearl, Viehdver, and Fischbach. v-SNARE Vtilp mediates two vesicle transport pathways through Gottshall, K.R. See Becker, Gottshall, Hickey, Perriard, and Chien. interactions with the t-SNAREs SedSp and Pepl2p. 1511. Gough, N.R., and Fambrough, D.M. Different steady state subcellu- Fincher, B.E. See Protasi, Franzini-Armstrong, and Flucher. lar distributions of the three splice variants of lysosome-associated Foglesong, MJ. See Wilson, Foglesong, and Snell. membrane protein LAMP-2 are determined largely by the Franco, P., laccarino, C., Chiaradonna, F,, Brandazza, A., lavarone, COOH-terminal amino acid residue. 1161. Mastronicola, M.R,, NoUi, M.L,, and Stoppel^ M.P. Phos¬ Gould, K.L. See Berry and Gould. phorylation of human pro-urokinase on ser impairs its re¬ Grabs, D. See Butler, David. Ochoa, Freyberg, Daniell, Grabs, ceptor-dependent ability to promote myelomonocytic adherence Cremona, and De Camilli. and motility. 779. Graham, P.L., Johnson, JJ,, Wang, S,, Sibley, M.H., Gupta, M.C., Franzini-Armstrong, C. See Protasi, Franzini-Armstrong. and Flucher. and Kramer, J.M. Type IV collagen is detectable in most, but Freyberg, Z. See Butler, David, Ochoa, Freyberg, Daniell, Grabs, not all, basement membranes of Caenorhabditis elegans and as¬ Cremona, and De Camilli. sembles on tissues that do not express it. 1171. Fuchs, E. See Yang, Gallicano, Yu, and Fuchs. — See Gupta, Graham, and Kramer. Fuchs, S. See Lenz-Bohme, Wismar, Fuchs, Reifegerste, Buchner, Gralla, E.B. See Longo, Ellerby, Bredesen, Valentine, and Gralla. Betz, and Schmitt. Green, M.R. See Gama-Carvalho, Krauss. Chiang. Valcarcel. Green, Fujita, J. See Nishiyama, Itoh, Kaneko, Kishishita, Yoshida, and Fujita. and Carmo-Fonseca. Fullerton, A.T. See Bashour, Fullerton, Hart, and Bloom. Greif, D.M. See Goetz, Greif. Ding. Camphausen, Howes, Comess, Furger, A. See Ruepp, Furger, Kurath, Kunz Renggli, Hemphill. Snapp. Kansas, and Luscinskas. Brun, and Roditi. Griffiths, G. See Blocker, Severin, Burkhardt, Bingham, Yu. Olivo, Furuse, M. See Sakakibara, Furuse, Saitou, Ando-Akatsuka, and Schroer, Hyman, and Griffiths. Tsukita. — See Scheel, Pepperkok, Lowe, Griffiths, and Kreis. Grummt, I. See Falciola, Spada, Calogero, Langst. Voit. Grummt, and Bianchi. Gschmeissner, S. See Whitehouse, Burchell. Gschmeissner, Brock- G hausen, Lloyd, and Taylor-Papadimitriou. Guan, T. See Yang. Guan, and Gerace. Gallagher, PJ, See Klemke, Cai. Giannini, Gallagher, de Lanerolle, Gupta, M.C., Graham, P.L., and Kramer, J.M. Characterization of and Cheresh. al(IV) collagen mutations in Caenorhabditis elegans and the effects Gallicano, G.I. See Yang, Gallicano, Yu, and Fuchs. of al and a2(IV) mutations on type IV collagen distribution. 1185. Gama-Carvalho, M., Krauss, R.D., Chiang, L., Valcarcel, J., Green, — See Graham, Johnson, Wang. Sibley, Gupta, and Kramer. M.R., and Carmo-Fonseca, M. Targeting of U2AF‘’‘' to sites of active splicing in the nucleus. 975. Gambarotta, G. See Anastasi, Giordano, Sthandier, Gambarotta, H Maione, Comoglio, and Amati. Garcia, J.A. See Hasson, Gillespie, Garcia, MacDonald, Zhao, Yee, Mooseker, and Corey. Haegeman, G. See Vandevoorde, Haegeman, and Fiers. Garruti, G. See Slot, Garruti, Martin, Oorschot, Posthuma, Kraegen, Hage, W. See van Delft, Schumacher, Hage, Verkleij, and van Bergen Laybutt, Thibault, and James. en Henegouwen. Garver, T.D., Ren, Q., Tuvia, S., and Bennett, V. Tyrosine phosphor¬ Haidar, K. See Shima, Haidar, Pepperkok, Watson, and W'arren. ylation at a site highly conserved in the LI family of cell adhe¬ Hall, A, See Braga, Machesky, Hall, and Hotchin. sion molecules abolishes ankyrin binding and increases lateral Han, J.W., Park, J.H., Kim, M., and Lee, J. mRNAs for microtubule mobility of neurofascin. 703. proteins are specifically colocalized during the sequential forma¬ Gascard, P. See Krauss. Larabell, Lockett, Gascard, Penman. Mohan¬ tion of basal body, flagella, and cytoskeletal microtubules in the das, and Chasis. differentiation of Naegleria griiberi. 871. Gebbink, M.F.B.G., Kranenburg, O., Poland, M., van Horck, F.P.G,, Hannah, MJ. See Schmidt, Hannah, and Huttner. Houssa, B., and Moolenaar, W.H. Identification of a novel, pu¬ Harada, A. 5ee Takei, Kondo, Harada, Inomata, Noda, and Hirokawa. tative Rho-specific GDP/GTP exchange factor and a RhoA- Harley, J.E. See Koval, Harley, Hick, and Steinberg. binding protein: Control of neuronal morphology. 1603. Harrison, A. See Patel-King. Benashski. Harrison, and King. Geng, J.-G., Raub, TJ., Baker, C.A,, Sawada, G.A., Ma, L., and Hart, M J. See Bashour, Fullerton, Hart, and Bloom. Elhammer, A.P. Expression of a P-selectin ligand in zona pellu- Hasebe, T. See Adachi, Takahashi, Hasebe, Shirouzu, Yokoyama, cida of porcine oocytes and P-selectin on acrosomal membrane and Sutoh. of porcine sperm cells. Potential implications for their involve¬ Hasson, T., Gillespie, P.G., Garda, JA., MacDonald, R.B., Zhao, Y.-d., ment in sperm-egg interactions. 743. Yee, A.G., Mooseker, M.S., and Corey, D.P. Unconventional Gerace, L. See Yang. Guan, and Gerace. myosins in inner-ear sensory epithelia. 1287. Gesemann, M. See Denzer, Brandenberger, Gesemann, Chiquet, and Hauri, H.-P. See Salas. Rodriguez, Viciana, Vega-Salas, and Hauri. Ruegg. Hayek, A. See Ptasznik. Beattie, Mally, Cirulli. Lopez, and Hayek. Geuskens, M. See Magez, Geuskens. Beschin, del Favero, Heagle, A.B. See McEwen, Heagle, Cassels. Buttle, and Rieder. Verschueren, Lucas, Pays, and de Baetselier. Heins, L. See Liibeck, Heins, and Soli. Giannini, A.L. See Klemke, Cai, Giannini, Gallagher, de Lanerolle, Hemphill, A. See Ruepp, Furger, Kurath. Kunz Renggli. Hemphill, and Cheresh. Brun. and Roditi. Gilbert, DJ. See Miner, Patton, Lentz, Gilbert, Snider, Jenkins, Hermann, G J., King, E J., and Shaw, J.M. The yeast gene, MDM20, Copeland, and Sanes. is necessary for mitochondrial inheritance and organization of Gillespie, P.G. See Hasson, Gillespie, Garcia, MacDonald, Zhao, the actin cytoskeleton. 141. Yee, Mooseker, and Corey. Herriich, P. See Weiss, Sleeman. Renkl, Dittmar, Termeer, Taxis, Ginsberg, M.H. See Kashiwagi, Schwartz, Eigenthaler, Davis, Ginsberg, Howells, Hofmann, Kohler, Schopf, Ponta, Herriich, and Simon. and Shattil. Hick, E. See Koval. Harley, Hick, and Steinberg. Giordano, S. See Anastasi, Giordano, Sthandier, Gambarotta, Hickey, R. See Becker, Gottshall, Hickey, Perriard. and Chien. Maione, Comoglio, and Amati. Hirokawa, N. See Takei, Kondo, Harada. Inomata, Noda. and Glover, D,M, See Saunders, do Carmo Avides, Howard, Gonzalez, Hirokawa. and Glover. Hirono, M. See Kato-Minoura, Hirono, and Kamiya. Goetz, DJ,, Greif, D.M., Ding, H., Camphausen, R.T,, Howes, S,, Hodivala-Dilke, K.M. See DiPersio, Hodivala-Dilke, Jaenisch, Comess, K.M., Snapp, K.R., Kansas, G.S., and Luscinskas, F.W. Kreidberg. and Hynes. Isolated P-selectin glycoprotein ligand-1 dynamic adhesion to P- Hoeffler, J.P. See Hungerford, Hoeffler, Bowers. Dahm, Falchetto, and E-selectin. 509. Shabanowitz, Hunt, and Little. Author Index 1687 Hoekstra, D. See van IJzendoom, Zegers, Kok, and Hoekstra. Jenkins, N.A. See Miner, Patton, Lentz, Gilbert, Snider, Jenkins, Hoflack, B. See Le Borgne and Hoflack. Copeland, and Sanes. Hofmann, M. See Weiss, Sleeman, Renkl, Dittmar, Termeer, Taxis, Jensen, R.E. See Lohret, Jensen, and Kinnally. Howells, Hofmann, Kohler, Schopf, Ponta, Herrlich, and Simon. Johnson, J J. See Graham, Johnson, Wang, Sibley, Gupta, and Kramer. Holkeri, H. See Saris, Holkeri, Craven, Stirling, and Makarow. Hordijk, P.L. See Michiels, Stam, Hordijk, van der Kammen, Ruuls- Van Stalle, Feltkamp, and Collard. Homack, D. See Saunders, Homack, Lengyel, and Deng. K Hotchin, N.A. See Braga, Machesky, Hall, and Hotchin. Hoth, M,, Fanger, C.M,, and Lewis, R.S. Mitochondrial regulation of store-operated calcium signaling in T lymphocytes. 633. Kaiser, C.A. See Roberg, Rowley, and Kaiser. Houssa, B. See Gebbink, Kranenburg, Poland, van Horck, Houssa, Kamiya, R. See Kato-Minoura, Hirono, and Kamiya. and Moolenaar. Kanaseki, T., Kawasaki, K., Murata, M., Ikeuchi, Y., and Ohnishi, S. Howard, T. See Saunders, do Carmo Avides, Howard, Gonzalez, and Structural features of membrane fusion between influenza virus Glover. and liposome as revealed by quick-freezing electron microscopy. Howells, N. See Weiss, Sleeman, Renkl, Dittmar, Termeer, Taxis, 1041. Howells, Hofmann, Kohler, Schopf, Ponta, Herrlich, and Simon. Kaneko, Y. See Nishiyama, Itoh, Kaneko, Kishishita, Yoshida, and Howes, S. See Goetz, Greif, Ding, Camphausen, Howes, Comess, Fujita. Snapp, Kansas, and Luscinskas. Kansas, G.S. See Goetz, Greif, Ding, Camphausen, Howes, Comess, Hu, V.W. See Xie, Laird, Chang, and Hu. Snapp, Kansas, and Luscinskas. Hua, X.H,, Yan, H,, and Newport, J. A role for Cdk2 kinase in nega¬ — See Lawrence, Kansas, Kunkel, and Ley. tively regulating DNA replication during S phase of the cell Kashiwagi, H., Schwartz, M.A., Eigenthaler, M., Davis, K.A., Ginsberg, cycle. 183. M.H., and Shattil, S J. Affinity modulation of platelet integrin Huang, S,, Deerinck, TJ,, EUisman, M.H,, and Spector, D.L. The dy¬ “iibPi by P3-endonexin, a selective binding partner of the p3 inte¬ namic organization of the perinucleolar compartment in the cell grin cytoplasmic tail. 1433. nucleus. %5. Kato-Minoura, T., Hirono, M., and Kamiya, R. Chlamydomonas inner- Huby, R.DJ,, Iwashima, M., Weiss, A., and Ley, S.C. ZAP-70 pro¬ arm dynein mutant, idaS, has a mutation in an actin-encoding tein tyrosine kinase is constitutively targeted to the T cell cortex gene. 649. independently of its SH2 domains. 1639. Kawasaki, K, See Kanaseki, Kawasaki, Murata, Ikeuchi, and Ohnishi. Hughes, T.E. See Liu, Hughes, and Sessa. Kiefer, F. See Sabapathy, Pepper, Kiefer, Mohle-Steinlein, Tacchini- Hungerford, J.E,, Hoeffler, J.P,, Bowers, C.W,, Dahm, L.M,, Falchetto, Cottier, Fetka, Breier, Risau, Carmeliet, Montesano, and Wagner. R,, Shabanowitz, J,, Hunt, D.F,, and Little, C.D. Identification of a Kim, J., Scott, S.V., Oda, M.N., and Klionsky, DJ. Transport of a novel marker for primordial smooth muscle and its differential ex¬ large oligomeric protein by the cytoplasm to vacuole protein tar¬ pression pattern in contractile vs noncontractile cells. 925. geting pathway. ^9. Hunt, D.F. See Hungerford, Hoeffler, Bowers, Dahm, Falchetto, — See Yu, Kim, and Ossowski. Shabanowitz, Hunt, and Little. Kim, M. See Han, Park, Kim. and Lee. Huttner, W.B. See Schmidt, Hannah, and Huttner. King, E J. See Hermann, King, and Shaw. Hyman, A.A. See Blocker, Severin, Burkhardt, Bingham, Yu, Olivo, King, S.M. See Patel-King, Benashski, Harrison, and King. Schroer, Hyman, and Griffiths. Kinnally, K.W. See Lohret, Jensen, and Kinnally. Hynes, R.O. See DiPersio, Hodivala-Dilke, Jaenisch, Kreidberg, and Kirsch, T., Nah, H.-D., Shapiro, I.M., and Pacifici, M. Regulated pro¬ Hynes. duction of mineralization-competent matrix vesicles in hyper¬ trophic chondrocytes. 1149. Kishishita, M. See Nishiyama, Itoh, Kaneko, Kishishita, Yoshida, and Fujita. I Kislauskis, E.H., Zhu, X.-c., and Singer, R.H. P-Actin messenger RNA localization and protein synthesis augment cell motility: Correction. 1459. laccarino, C. See Franco, laccarino, Chiaradonna, Brandazza, lavarone. Kitayama, C., Sugimoto, A., and Yamamoto, M. Type II myosin Mastronicola, Nolli, and Stoppelli. heavy chain encoded by the myo2 gene composes the contractile lavarone, C. See Franco, laccarino, Chiaradonna, Brandazza, lavarone, ring during cytokinesis in Schizosaccharomyces pombe. 1309. Mastronicola, Nolli, and Stoppelli. Klemke, R.L., Cai, S., Giannini, A.L., Gallagher, PJ., de Lanerolle, Ikeuchi, Y. See Kanaseki, Kawasaki, Murata, Ikeuchi, and Ohnishi. P., and Cheresh, D.A. Regulation of cell motility by mitogen- Inaba, K. See Koutoulis, Pazour, Wilkerson, Inaba, Sheng, Takada, activated protein kinase. 481. and Witman. Klionsky, DJ. See Kim, Scott, Oda, and Klionsky. Inomata, S. See Takei, Kondo, Harada, Inomata, Noda, and Hirokawa. Klumperman, J. See Kuliawat, Klumperman, Ludwig, and Arvan. lovine, IV1.K., and Wente, S.R. A nuclear export signal in Kap95p is re¬ Koch, PJ., Mahoney, M.G., Ishikawa, H., Pulkkinen, L., Uitto, J., quired for both recycling the import factor and interaction with the Shultz, L., Murphy, G.F., Whitaker-Menezes, D., and Stanley, nucleoporin GLFG repeat regions of Nupll6p and NuplOOp. 797. J.R. Targeted disruption of the pemphigus vulgaris antigen (des- Ishikawa, H. See Koch, Mahoney, Ishikawa, Pulkkinen, Uitto, Shultz, moglein 3) gene in mice causes loss of keratinocyte cell adhesion Murphy, Whitaker-Menezes, and Stanley. with a phenotype similar to pemphigus vulgaris. 1091. Isobe-Nakamura, M. See Bijlmakers, Isobe-Nakamura, Ruddock, and Kohler, G. See Weiss, Sleeman, Renkl, Dittmar, Termeer, Taxis, Marsh. Howells, Hofmann, Kohler, Schopf, Ponta, Herrlich, and Simon. Itoh, K- See Nishiyama, Itoh, Kaneko, Kishishita, Yoshida, and Fujita. Kok, J.W. See van IJzendoorn, Zegers, Kok, and Hoekstra. Iwashima, M. See Huby, Iwashima, Weiss, and Ley. Komma, D J. See Endow and Komma. Izaurralde, E., Jarmolowski, A., Beisel, C., Mattaj, I.W., Dreyfuss, Kondo, S. See Takei, Kondo, Harada. Inomata, Noda, and Hirokawa. G., and Fischer, U. A role for the M9 transport signal of hnRNP Koutoulis, A., Pazour, G J., Wilkerson, C.G., Inaba, K., Sheng, H., A1 in mRNA nuclear export. 27. Takada, S., and Witman, G.B. The Chlamydomonas reinhardtii ODA3 gene encodes a protein of the outer dynein arm docking complex. 1069. Koval, M., Harley, J.E., Hick, E., and Steinberg, T.H. Connexin46 is J retained as monomers in a trans-Go\g\ compartment of osteo¬ blastic cells. 847. Jaenisch, R. See DiPersio, Hodivala-Dilke, Jaenisch, Kreidberg, and Kraegen, E.W. See Slot, Garruti, Martin, Oorschot, Posthuma, Kraegen, Hynes. Laybutt, Thibault, and James. James, D.E. See Slot, Garruti, Martin, Oorschot, Posthuma, Kraegen, Kramer, J.M. See Graham, Johnson, Wang, Sibley, Gupta, and Kramer. Laybutt, Thibault, and James. — See Gupta, Graham, and Kramer. Jarmolowski, A. See Izaurralde, Jarmolowski, Beisel, Mattaj, Dreyfuss, Krammer, P.H. See Mariani, Matiba, Armandola, and Krammer. and Fischer. Krane, S.M. See Pilcher, Dumin, Sudbeck, Krane, Welgus, and Parks. Jedd, G., Mulholland, J., and Segev, N. Two new Ypt GTPases are Kranenburg, O. See Gebbink, Kranenburg, Poland, van Horck, required for exit from the yeast frans-Golgi compartment. 563. Houssa, and Moolenaar. The Journal of Cell Biology, Volume 137, 1997 1688 Krauss, R.D. See Gama-Carvalho, Krauss, Chiang. Valcarcel, Green, and Carmo-Fonseca. Krauss, S.W,, Larabell, C.A., Lockett, S,, Gascard, P,, Penman, Ma, L. See Geng, Raub, Baker, Sawada, Ma, and Elhammer. Mohandas, N,, and Chasis, J.A. Structural protein 4.1 in the nu¬ MacDonald, R.B. See Hasson, Gillespie, Garcia, MacDonald, Zhao, cleus of human cells: Dynamic rearrangements during cell divi¬ Yee, Mooseker, and Corey. sion. 275. MacFarlane, M,, Cain, K,, Sun, X.-M,, Alnemri, E.S,, and Cohen, Kreidberg, J.A. See DiPersio, Hodivala-Dilke, Jaenisch, Kreidberg, G. M. Processing/activation of at least four interleukin-1 ^ con¬ and Hynes. verting enzyme-like proteases occurs during the execution Kreis, T.E. See Scheel, Pepperkok, Lowe, Griffiths, and Kreis. phase of apoptosis in human monocytic tumor cells. 469. Kuliawat, R., Klumperman, J., Ludwig, T., and Arvan, P. Differential Machesky, L.M. See Braga, Machesky, Hall, and Hotchin. sorting of lysosomal enzymes out of the regulated secretory Macklin, W. See Trapp, Nishiyama, Cheng, and Macklin. pathway in pancreatic p-cells. 595. Magez, S,, Geuskens, M,, Beschin, A,, del Favero, H,, Verschueren, Kunkel, EJ. See Lawrence, Kansas, Kunkel, and Ley. H, , Lucas Rm Pays and de Baetselier, P. Specific uptake of Kunz Renggli, C. See Ruepp, Furger, Kurath, Kunz Renggli, Hemphill, tumor necrosis factor-a is involved in growth control of Trypa¬ Brun, and Roditi. nosoma brucei. 715. Kurath, U. See Ruepp, Furger, Kurath, Kunz Renggli, Hemphill, Mahoney, M.G. See Koch, Mahoney, Ishikawa, Puikkinen, ditto, Brun, and Roditi. Shultz, Murphy, Whitaker-Menezes, and Stanley. Maione, R. See Anastasi, Giordano, Sthandier, Gambarotta, Maione, Comoglio, and Amati. Makarow, M. See Saris, Holkeri, Craven, Stirling, and Makarow. Mally, M.L See Ptasznik, Beattie, Mally, Cirulli, Lopez, and Hayek. L Mannherz, H.G. See Rauch. Polzar, Stephan. Zanotti. Paddenberg, and Mannherz. Laird, D.W. See Xie, Laird, Chang, and Hu. Marcusson, E.G. See Seaman, Marcusson, Cereghino, and Emr. Langst, G. See Falciola, Spada, Calogero, Langst, Voit, Grummt, and Mareel, M. See van Hengel, Gohon, Bruyneel, Vermeulen, Comelis- Bianchi. sen, Mareel, and van Roy. Larabell, C.A. See Krauss, Larabell, Lockett, Gascard, Penman, Mariani, S.M., Matiba, B,, Amiandola, E.A,, and Krammer, P.H. Mohandas, and Chasis. Interleukin ip-converting enzyme related proteases/caspases — See Weaver, Petersen, Wang, Larabell, Briand, Damsky, and Bissell. are involved in TRAIL-induced apoptosis of myeloma and leu¬ Lawrence, M.B., Kansas, G.S., Kunkel, EJ., and Ley, K. Threshold kemia cells. 221. levels of fluid shear promote leukocyte adhesion through selec- Marquis H., Goldflne, H,, and Portnoy, D.A. Proteolytic pathways of tins (CD62L,P,E): Correction. 261. activation and degradation of a bacterial phospholipase C during Laybutt, R. See Slot, Garruti, Martin, Oorschot, Posthuma, Kraegen, intracellular infection by Listeria monocytogenes. 1381. Laybutt, Thibault, and James. Marsh, M. See Bijlmakers, Isobe-Nakamura, Ruddock, and Marsh. Le Borgne, R., and Hoflack, B. Mannose 6-phosphate receptors regu¬ Marshall, W.F. See Bass, Marshall, Sedat, Agard, and Cande. late the formation of clathrin-coated vesicles in the TGN. 335. Martin, S. See Slot. Garruti, Martin. Oorschot. Posthuma, Kraegen, Lee, J. See Han, Park, Kim, and Lee. Laybutt, Thibault. and James. Lengyel, V. See Saunders, Hornack, Lengyel, and Deng. Mastronicola, M.R. See Franco, laccarino, Chiaradonna, Brandazza, Lentz, S.L. See Miner, Patton, Lentz, Gilbert, Snider, Jenkins, Copeland, lavarone, Mastronicola, Nolli, and Stoppelli. and Sanes. Mataic, D. See Bassnett and Mataic. Lenz-Bohme, B., Wismar, J., Fuchs, S., Reifegerste, R., Buchner, E., Matiba, B. See Mariani, Matiba, Armandola, and Krammer. Betz, H., and Schmitt, B. Insertional mutation of the Drosophila Mattaj, LW. See Izaurralde, Jarmolowski, Beisel, Mattaj, Dreyfuss, nuclear lamin Dmo gene results in defective nuclear envelopes, and Fischer. clustering of nuclear pore complexes, and accumulation of annu¬ Matteson, J. See Tisdale, Plutner, Matteson, and Balch. late lamellae. 1001. McDonald, H.B,, and Byers B. A proteasome cap subunit required Lewis, R.S. See Hoth, Fanger, and Lewis. for spindle pole body duplication in yeast. 539. Ley, K. See Lawrence, Kansas, Kunkel, and Ley. McEwen, B.F,, Heagle, A.B., Cassels G.O,, Buttle, K.F,, and Rieder, Ley, S.C. See Huby, Iwashima, Weiss, and Ley. C.L. Kinetochore fiber maturation in PtKj cells and its implica¬ Little, C.D. See Hungerford, Hoeffler, Bowers, Dahm, Falchetto, tions for the mechanisms of chromosome congression and Shabanowitz, Hunt, and Little. anaphase onset. 1567. Littleton, J.T., Bhat, M.A., and Bellen, HJ. Deciphering the function McNeil, P.L., and Steinhardt, R.A. Loss, restoration, and mainte¬ of neurexins at cellular junctions. 793. nance of plasma membrane integrity. 1. Liu, J., Hughes, T.E., and Sessa, W.C. The first 35 amino acids and Mellman, 1. See Brachet, Raposo, Amigorena. and Mellman. fatty acylation sites determine the molecular targeting of endo¬ Meyer, A.N. See Chen, Webster, Meyer, and Donoghue. thelial nitric oxide synthase into the Golgi region of cells: A Michiels F,, Stam, J.C,, Hordijk, P.L., van der Kammen, R.A,, green fluorescent protein study. 1525. Ruuls-Van Stalle, L„ Feltkamp, C.A., and CoUard, J.G. Regu¬ — See Yang, Liu, and DeFranco. lated membrane localization of Tiaml, mediated by the NH2- Lloyd, K.O. See Whitehouse, Burchell, Gschmeissner, Brockhausen, terminal pleckstrin homology domain, is required for Rac- Lloyd, and Taylor-Papadimitriou. dependent membrane ruffling and c-Jun NH2-terminal kinase Lockett, S. See Krauss, Larabell, Lockett, Gascard, Penman, Mohan¬ activation. 387. das, and Chasis. Miner, J.H., Patton, B.L., Lentz, S.L., Gilbert, DJ., Snider, W.D., Lohret, T.A., Jensen, R.E., and Kinnally, K.W. Tim23, a protein im¬ Jenkins N.A., Copeland, N.G., and Sanes J>R> Yhe laminin a port component of the mitochondrial inner membrane, is re¬ chains: Expression, developmental transitions, and chromo¬ quired for normal activity of the multiple conductance channel, somal locations of al-5, identification of heterotrimeric laminins MCC. 377. 8-11, and cloning of a novel a3 isoform. 685. Longo, V.D., Ellerby, L.M., Bredesen, D.E., Valentine, J.S., and Mohandas, N. See Krauss, Larabell, Lockett, Gascard, Penman. Gralla, E.B. Human Bcl-2 reverses survival defects in yeast lack¬ Mohandas, and Chasis. ing superoxide dismutase and delays death of wild-type yeast. Mohle-Steinlein, U. See Sabapathy, Pepper, Kiefer, Mohle-Steinlein, 135:1581 Tacchini-Cottier, Fetka, Breier, Risau, Carmeliet, Montesano, Lopez, A. See Ptasznik, Beattie, Mally, Cirulli, Lopez, and Hayek. and Wagner. Lowe, M. See Scheel, Pepperkok, Lowe, Griffiths, and Kreis. Monier-Gavelle, F., and Duband, J.-L. Cross talk between adhesion Liibeck, J,, Heins, L., and Soil, J. A nuclear-coded chloroplastic inner molecules: Control of N-cadherin activity by intracellular signals envelope membrane protein uses a soluble sorting intermediate elicited by 3I and P3 integrins in migrating neural crest cells. 1663. upon import into the organelle. 1279. Montesano, R. See Sabapathy, Pepper, Kiefer, Mohle-Steinlein. Lucas, R. See Magez, Geuskens, Beschin, del Favero, Verschueren, Tacchini-Cottier, Fetka. Breier, Risau, Carmeliet, Montesano, Lucas, Pays, and de Baetselier. and Wagner. Ludwig, T. See Kuliawat, Klumperman, Ludwig, and Arvan. Montoya, M.C. See del Pozo, Cabanas, Montoya, Ager, Sanchez- Luscinskas, F.W. See Goetz, Greif, Ding, Camphausen, Howes, Mateos, and Sanchez-Madrid. Comess, Snapp, Kansas, and Luscinskas. Moolenaar, W.H. See Gebbink. Kranenburg, Poland, van Horck, Lutz, Y. See Okada, Tomasetto, Lutz, Bellocq, Rio, and Basset. Houssa, and Moolenaar. Author Index 1689 Mooseker, M.S. See Hasson, Gillespie, Garcia, MacDonald, Zhao, Penman, S. See Krauss, Larabell, Lockett, Gascard, Penman. Mohan¬ Yee, Mooseker, and Corey. das, and Chasis. Mostov, K.E. See Pollack, Barth, Altschuler, Nelson, and Mostov. Penn, L.Z. See Screaton, Penn, and Stanners. Muchardt, C. See Reyes, Muchardt, and Yaniv. Pepper, M.S. See Sabapathy, Pepper, Kiefer, Mohle-Steinlein, Mulholland, J. See Jedd, Mulholland, and Segev. Tacchini-Cottier, Fetka, Breier, Risau, Carmeliet, Montesano, Murata, M. See Kanaseki, Kawasaki, Murata, Ikeuchi, and Ohnishi. and Wagner. Murphy, G.F. See Koch, Mahoney, Ishikawa, Pulkkinen, Ditto, Pepperkok, R. See Scheel, Pepperkok, Lowe, Griffiths, and Kreis. Shultz, Murphy, Whitaker-Menezes, and Stanley. — See Shima, Haidar, Pepperkok, Watson, and Warren. Mustelin, T. See Farschon, Couture, Mustelin, and Newmeyer. Perriard, J.-C. See Becker, Gottshall, Hickey, Perriard, and Chien. Myles, D.G. See Yuan, Primakoff, and Myles. Petersen, O.W. See Weaver, Petersen. Wang, Larabell, Briand, Damsky, and Bissell. Pilcher, B.K., Dumin, J.A., Sudbeck, B.D., Krane, S.M., Welgus, H.G., and Parks, W.C. The activity of collagenase-1 is required for keratinocyte migration on a type I collagen matrix. 1445. N Ploegh, H.L. See Rehm and Ploegh. Plutner, H. See Tisdale, Plutner, Matteson, and Balch. Nah, H.-D. See Kirsch, Nah, Shapiro, and Pacifici. Pokala, N. See Ayscough, Stryker, Pokala, Sanders, Crews, and Drubin. Nelson, WJ. See Pollack, Barth, Altschuler, Nelson, and Mostov. Poland, M. See Gebbink, Kranenburg, Poland, van Horck, Houssa, Newmeyer, D.D. See Farschon, Couture, Mustelin, and Newmeyer. and Moolenaar. Newport, J. See Hua, Yan, and Newport. Pollack, A.L., Barth, A.I.M., Altschuler, Y., Nelson, WJ., and Mostov, Nishiyama, A. See Trapp, Nishiyama, Cheng, and Macklin. K.E. Dynamics of P-catenin interactions with APC protein regu¬ Nishiyama, H., Itoh, K., Kaneko, Y., Kishishita, M., Yoshida, O., and late epithelial tubulogenesis. 1651. Fujita, J. A glycine-rich RNA-binding protein mediating cold- Polzar, B. See Rauch, Polzar, Stephan, Zanotti, Paddenberg, and inducible suppression of mammalian cell growth. 899. Mannherz. Noda, T. See Takei, Kondo, Harada, Inomata, Noda, and Hirokawa. Ponta, H. See Weiss, Sleeman, Renkl, Dittmar, Termeer, Taxis, Howells, Nolli, M.L. See Franco, laccarino, Chiaradonna, Brandazza, lava- Hofmann, Kohler, Schopf, Ponta, Herrlich, and Simon. rone, Mastronicola, Nolli, and Stoppelli. Portnoy, D.A. See Marquis, Goldfine, and Portnoy. Nothw-ehr, S.F. See Fischer von Mollard, Nothwehr, and Stevens. Posthuma, G. See Slot, Garruti, Martin, Oorschot, Posthuma. Novick, PJ. See Walch-Solimena, Collins, and Novick. Kraegen, Laybutt, Thibault, and James. Nurse, P. See Chang, Drubin, and Nurse. Prekeris, R., and Terrian, D.M. Brain myosin V is a synaptic vesicle- associated motor protein: Evidence for a Ca^^-dependent inter¬ action with the synaptobrevin-synaptophysin complex. 1589. Primakoff, P. See Yuan, Primakoff, and Myles. Protasi, F., Franzini-Armstrong, C., and Ilucher, B.E. Coordinated O incorporation of skeletal muscle dihydropyridine receptors and ryanodine receptors in peripheral couplings of BC3HI cells. 859. Ochoa, G.-C. See Butler, David, Ochoa, Freyberg, Daniell, Grabs, Ptasznik, A., Beattie, G.M., Mally, M.L, Cirulli, V., Lopez, A., and Cremona, and De Camilli. Hayek, A. Phosphatidylinositol 3-kinase is a negative regulator Oda, M.N. See Kim, Scott, Oda, and Klionsky. of cellular differentiation. 1127. Odorizzi, G,, and Trowiiridge, I,S. Structural requirements for basolat- Pulkkinen, L. See Koch, Mahoney, Ishikawa, Pulkkinen, Ditto, eral sorting of the human transferrin receptor in the biosynthetic Shultz. Murphy, Whitaker-Menezes, and Stanley. and endocytic pathways of Madin-Darby canine kidney cells. 1255. Ohnishi, S. See Kanaseki, Kawasaki, Murata, Ikeuchi, and Ohnishi. Okada, A., Tomasetto, C., Lutz, Y., Bellocq, J.-P., Rio, M.-C., and Basset, P. Expression of matrix metalloproteinases during rat skin wound healing: Evidence that membrane type-1 matrix R metalloproteinase is a stromal activator of pro-gelatinase A. 67. Olivo, J.-C. See Blocker, Severin, Burkhardt, Bingham, Yu, Olivo, Rachubinski, R.A. See Eitzen, Szilard, and Rachubinski. Schroer, Hyman, and Griffiths. Raposo, G. See Brachet, Raposo, Amigorena, and Mellman. Oorschot, V. See Slot, Garruti, Martin, Oorschot, Posthuma, Kraegen, Raub, TJ. See Geng, Raub, Baker, Sawada, Ma, and Elhammer. Laybutt, Thibault, and James. Rauch, F., Polzar, B., Stephan, H., Zanotti, S., Paddenberg, R., and Orci, L. See Paek. Orci. Ravazzola, Erdjument-Bromage, Amherdt. Mannherz, H.G. Androgen ablation leads to an upregulation and Tempst. Sollner, and Rothman. intranuclear accumulation of deoxyribonuclease 1 in rat prostate Ortego, J. See Rodriguez, Webster, Ortego, and Andrews. epithelial cells paralleling their apoptotic elimination. 909. Ossowski, L. See Yu, Kim, and Ossowski. Ravazzola, M, See Paek, Orci, Ravazzola. Erdjument-Bromage, Amherdt, Tempst, Sollner, and Rothman. Rehm, A., and Ploegh, H.L. Assembly and intracellular targeting of the 37 subunits of heterotrimeric G proteins. 305. P Reifegerste, R. See Lenz-Bohme, Wismar, Fuchs. Reifegerste, Buchner, Betz, and Schmitt. Pacifici, M. See Kirsch, Nah, Shapiro, and Pacifici. Ren, Q, See Garver, Ren, Tuvia, and Bennett. Paddenberg, R. See Rauch, Polzar, Stephan, Zanotti, Paddenberg, Renkl, A.C. See Weiss, Sleeman, Renkl, Dittmar, Termeer, Taxis. and Mannherz. Howells, Hofmann, Kohler, Schopf, Ponta, Herrlich, and Simon. Paek, L, Orci, L., Ravazzola, M., Erdjument-Bromage, H., Amherdt, Reyes, J.C., Muchardt, C., and Yaniv, M. Components of the human M,, Tempst, P,, Sollner, T.H., and Rothman, J.E. ERS-24, a SWI/SNF complex are enriched in active chromatin and are as¬ mammalian v-SNARE implicated in vesicle traffic between the sociated with the nuclear matrix. 263. ER and the Golgi. 1017. Rieder, C.L. See McEwen, Heagle, Cassels, Buttle, and Rieder. Palazzo, R.E. See Vogel, Steams, Rieder, and Palazzo. — See Vogel, Stearns. Rieder, and Palazzo. Park, J.H. See Han. Park, Kim. and Lee. Rio, M.-C. See Okada, Tomasetto, Lutz, Bellocq. Rio, and Basset. Parks, W,C. See Pilcher, Dumin, Sudbeck, Krane, Welgus, and Parks. Risau, W. See Sabapathy, Pepper, Kiefer, Mohle-Steinlein, Tacchini- Patel-King, R.S,, Benashski, S.E,, Harrison, A,, and King, S.M. A Cottier, Fetka, Breier, Risau. Carmeliet, Montesano, and Wagner. Chlamydomonas homologue of the putative murine t complex Roberg, KJ., Rowley, N., and Kaiser, C.A. Physiological regulation distorter Tctex-2 is an outer arm dynein light chain. 1081. of membrane protein sorting late in the secretory pathway of Patton, B.L. See Miner, Patton, Lentz, Gilbert, Snider, Jenkins, Saccharomyces cerevisiae. 1469. Copeland, and Sanes. Robinson, M.S. See Simpson, Peden, Christopoulou, and Robinson. Pays, E. See Magez, Geuskens, Beschin, del Favero, Verschueren, Roditi, I. See Ruepp, Furger, Kurath, Kunz Renggli, Hemphill, Brun, Lucas. Pays, and de Baetselier. and Roditi. Pazour, GJ. See Koutoulis, Pazour, Wilkerson, Inaba, Sheng, Rodriguez, A., Webster, P., Ortego, J., and Andrews, N.W. Lyso- Takada, and Witman. somes behave as Ca’^-regulated exocytic vesicles in fibroblasts Peden, A.A. See Simpson, Peden, Christopoulou. and Robinson. and epithelial cells. 93. The Journal of Cell Biology, Volume 137, 1997 1690 Rodriguez, M.L. See Salas, Rodriguez, Viciana, Vega-Salas, and Schwartz, M.A. See Kashiwagi, Schwartz, Eigenthaler, Davis, Ginsberg, Hauri. and Shattil. Ross, F.P. See Abu-Amer, Ross, Schlesinger, Tondravi, and Teitelbaum. Scott, S.V. See Kim, Scott, Oda, and Klionsky. Rothman, J.E. See Pack, Ord, Ravazzola, Erdjument-Bromage, Screaton, R.A,, Penn, L.Z,, and Stunners, C.P. Carcinoembryonic an¬ Amherdt, Tempst, Sollner, and Rothman. tigen, a human tumor marker, cooperates with Myc and Bcl-2 in Rowley, N. See Roberg, Rowley, and Kaiser. cellular transformation. 939. Ruddock, LJ. See Bijlmakers, Isobe-Nakamura, Ruddock, and Seaman, M.NJ,, Marcusson, E.G,, Cereghino, J.L,, and Emr, S.D. Marsh. Endosome to Golgi retrieval of the vacuolar protein sorting re¬ Ruegg, M.A. See Denzer, Brandenberger, Gesemann, Chiquet, and ceptor, VsplOp, requires the function of the VPS29, VPS30, and Ruegg. VPS35 gene products. 79. Ruepp, S,, Furger, A., Kurath, U., Kunz Renggli, C,, Hemphill, A,, Sechi, A.S,, Wehland, J,, and Small, J.V. The isolated comet tail Brun, R., and Roditi, I. Survival of Trypanosoma brucei in the pseudopodium of Listeria monocytogenes: A tail of two actin fil¬ tsetse fly is enhanced by the expression of specific forms of pro- ament populations, long and axial and short and random. 155. cyclin. 1369. Sedat, J.W. See Bass, Marshall, Sedat, Agard, and Cande. Ruuls-Van Stalle, L. See Michiels, Stam, Hordijk, van der Kammen, Segev, N. See Jedd, Mulholland, and Segev. Ruuls-Van Stalle, Feltkamp, and Collard. Sessa, W.C. See Liu, Hughes, and Sessa. Severin, F.F. See Blocker, Severin, Burkhardt, Bingham, Yu, Olivo, Schroer, Hyman, and Griffiths. Shabanowitz, J. See Hungerford, Hoeffler, Bowers, Dahm, Falchetto, Shabanowitz, Hunt, and Little. S Shapiro, I.M. See Kirsch, Nah, Shapiro, and Pacifici. Shattil, SJ. See Kashiwagi, Schwartz, Eigenthaler, Davis, Ginsberg, Sabapathy, K.T,, Pepper, M.S,, Kiefer, F,, Mdhie-Steinlein, U,, and Shattil. Tacchini-Cottier, F,, Fetka, I,, Breier, G,, Risau, W,, Carmeliet, Shaw, J.M. See Hermann, King, and Shaw. P,, Montesano, R., and Wagner, E.F. Polyoma middle T-induced Sheng, H. See Koutoulis, Pazour, Wiikerson, Inaba, Sheng, Takada, vascular tumor formation; The role of the plasminogen activa- and Witman. tor/plasmin system. 953. Shima, D.T,, Haidar, K,, Pepperkok, R,, Watson, R,, and Warren, G. Sahou, M. See Sakakibara, Furuse, Saitou, Ando-Akatsuka, and Tsukita. Partitioning of the Golgi apparatus during mitosis in living HeLa Sakakibara, A,, Furuse, M,, Saitou, M,, Ando-Akatsuka, Y,, and Tsukita, cells. 1211. S. Possible involvement of phosphorylation of occludin in tight Shirouzu, M. See Adachi, Takahashi. Hasebe, Shirouzu, Yokoyama, junction formation. 1393. and Sutoh. Salas, PJ.I., Rodriguez, M.L., Viciana, A.L,, Vega-Salas, D.E,, and Shultz, L. See Koch, Mahoney, Ishikawa, Pulkkinen, Ditto, Shultz, Hauri, H.-P. The apical submembrane cytoskeleton participates Murphy, Whitaker-Menezes, and Stanley. in the organization of the apical pole in epithelial cells. 359. Sibley, M.H. See Graham, Johnson, Wang, Sibley, Gupta, and Sanchez-Madrid, F. See del Pozo, Cabanas, Montoya, Ager, Sanchez- Kramer. Mateos, and Sanchez-Madrid. Simon, J.C. See Weiss, Sleeman, Renkl, Dittmar, Termeer, Taxis, Sanchez-Mateos, P. See del Pozo, Cabanas, Montoya, Ager, Sanchez- Howells, Hofmann, Kohler, Schopf, Ponta, Herrlich, and Simon. Mateos, and Sanchez-Madrid. Simpson, F,, Peden, A.A,, Christopoulou, L,, and Robinson, M.S. Sanders, M. See Ayscough, Stryker, Pokala, Sanders, Crews, and Characterization of the adaptor-related protein complex, AP-3. Drubin. 835. Sanes, J.R. See Miner, Patton, Lentz, Gilbert, Snider, Jenkins, Cope¬ Singer, R.H. See Kislauskis, Zhu, and Singer. land, and Sanes. Sleeman, J. See Weiss, Sleeman, Renkl, Dittmar, Termeer, Taxis, Saris, N., Holkeri, H., Craven, R.A., Stirling, CJ,, and Makarow, M. Howells, Hofmann, Kohler, Schopf, Ponta, Herrlich, and Simon. The Hsp70 homologue Lhslp is involved in a novel function of Slot, J.W., Garruti, G., Martin, S., Oors^ot, V., Posthuma, G., Kraegen, the yeast endoplasmic reticulum, refolding and stabilization of E.W., Laybutt, R., Thibault, G., and James, D.E. Glucose trans¬ heat-denatured protein aggregates. 813. porter (GLUT-4) is targeted to secretory granules in rat atrial Saumweber, H. See Buchenau, Saumweber, and Arndt-Jovin. cardiomyocytes. 1243. Saunders, R.D.Cm do Carmo Avides, M,, Howard, T,, Gonzalez, C,, Small, J.V. See Sechi, Wehland, and Small. and Glover, D.M. The Drosophila gene abnormal spindle en¬ Snapp, K,R. See Goetz, Greif, Ding, Camphausen, Howes, Comess, codes a novel microtubule-associated protein that associates Snapp, Kansas, and Luscinskas. with the polar regions of the mitotic spindle. 881. Snell, WJ. See Wilson, Foglesong, and Snell. Saunders, W., Homack, D., Lengyel, V,, and Deng, C. The Saccharo- Snider, W.D. See Miner, Patton, Lentz, Gilbert, Snider, Jenkins, myces cerevisiae kinesin-related motor Kar3p acts at pre¬ Copeland, and Sanes. anaphase spindle poles to limit the number and length of cyto¬ Soil, J. See Liibeck, Heins, and Soli. plasmic microtubules. 417. Sollner, T.H. See Paek, Orci, Ravazzola, Erdjument-Bromage, Savagner, P,, Yamada, K.M., and Thiery, J.P. The zinc-finger protein Amherdt, Tempst, Sollner, and Rothman. slug causes desmosome dissociation, an initial and necessary Spada, F. See Falciola, Spada, Calogero, Langst, Voit, Grummt, and step for growth factor-induced epithelial-mesenchymal transi¬ Bianchi. tion. 1403. Spector, D.L. See Huang, Deerinck, Ellisman. and Spector. Sawada, G.A. See Geng, Raub, Baker, Sawada, Ma, and Elhammer. Spiess, M. See Wahlberg and Spiess. Scalettar, B.A. See Abney, Cutler, Fillbach, Axelrod, and Scalettar. Springer, T.A. See Clark, Erickson, and Springer. Scheel, J,, Pepperkok, R,, Lowe, M., Griffiths, G,, and Kreis, T.E. Stam, J.C. See Michiels, Stam, Hordijk, van der Kammen, Ruuls-Van Dissociation of coatomer from membranes is required for Stalle, Feltkamp, and Collard. brefeldin A-induced transfer of Golgi enzymes to the endoplas¬ Stanley, J.R. See Koch, Mahoney, Ishikawa, Pulkkinen, Uitto, Shultz, mic reticulum. 319. Murphy, Whitaker-Menezes, and Stanley. Schekman, R. See Corsi and Schekman. Stanners, C.P. See Screaton, Penn, and Stanners. Schlesinger, P. See Abu-Amer, Ross, Schlesinger, Tondravi, and Steams, T. See Vogel, Steams, Rieder, and Palazzo. Teitelbaum. Steinberg, T.H. See Koval, Harley, Hick, and Steinberg. Schmidt, A., Hannah, MJ,, and Huttner, W.B. Synaptic-like mi¬ Steinhardt, R.A. See McNeil and Steinhardt. crovesicles of neuroendocrine cells originate from a novel com¬ Stephan, H. See Rauch, Polzar, Stephan, Zanotti, Paddenberg, and partment that is continuous with the plasma membrane and de¬ Mannherz. void of transferrin receptor. 445. Correction. 1197. Stevens, T.H. See Fischer von Mollard, Nothwehr, and Stevens. Schmitt, B. See Lenz-Bohme, Wismar, Fuchs, Reifegerste, Buchner, Sthandier, O. See Anastasi, Giordano, Sthandier, Gambarotta, Betz, and Schmitt. Maione, Comoglio, and Amati. Schopf, E. See Weiss, Sleeman, Renkl, Dittmar, Termeer, Taxis, Stirling, C J. See Saris, Holkeri, Craven, Stirling, and Makarow. Howells, Hofmann, Kohler, Schopf, Ponta, Herrlich, and Simon. Stoppelli, M.P. See Franco, laccarino, Chiaradonna, Brandazza, Schroer, T.A. See Blocker, Severin, Burkhardt, Bingham, Yu, Olivo, lavarone, Mastronicola, Nolli, and Stoppelli. Schroer, Hyman, and Griffiths. Stryker, J. See Ayscough, Stryker, Pokala, Sanders, Crews, and Schumacher, C. See van Delft, Schumacher, Hage, Verkleij, and van Drubin. Bergen en Henegouwen. Sudbeck, BJ>. See Pilcher, Dumin, Sudbeck. Krane, Welgus, and Parks. Author Index 1691 Sugimoto, A. See Kitayama, Sugimoto, and Yamamoto. van Horck, F.P.G. See Gebbink, Kranenburg, Poland, van Horck, Sun, X.-M. See MacFarlane, Cain, Sun, Alnemri, and Cohen. Houssa, and Moolenaar. Sutoh, K. See Adachi, Takahashi. Hasebe, Shirouzu, Yokoyama, and van IJzendoorn, S.C.D., Zegers, M.M.P., Kok, J.W., and Hoekstra, Sutoh. D. Segregation of glucosylceramide and sphingomyelin occurs in Szilard, R.K. See Eitzen, Szilard, and Rachubinski. the apical to basolateral transcytotic route in HepG2 cells. 347. van Roy, F. See van Hengel, Gohon, Bruyneel, Vermeulen, Comelis¬ sen, Mareel, and van Roy. Vartanian, T., Goodearl, A., Viehover, A., and Fischbach, G. Axonal T neuregulin signals cells of the oligodendrocyte lineage through activation of HER4 and Schwann cells through HER2 and HER3. 211. Tacchini-Cottier, F. See Sabapathy, Pepper, Kiefer, Mohle-Steinlein, Vega-Salas, D.E. See Salas, Rodriguez, Viciana, Vega-Salas, and Tacchini-Cottier, Fetka, Breier, Risau, Carmeliet, Montesano, Hauri. and Wagner. Verkleij, AJ. See van Delft, Schumacher, Hage, Verkleij, and van Takada, S. See Koutoulis, Pazour, Wilkerson, Inaba, Sheng, Takada, Bergen en Henegouwen. and Witman. Vermeulen, S. See van Hengel, Gohon, Bruyneel, Vermeulen, Takahashi, Y. See Adachi, Takahashi, Hasebe, Shirouzu, Yokoyama, Comelissen, Mareel, and van Roy. and Sutoh. Verschueren, H. See Magez, Geuskens, Beschin, del Favero, Takei, Kondo, S,, Harada, A^ Inomata, S,, Noda, and Hirokawa, Verschueren, Lucas, Pays, and de Baetselier. N. Delayed development of nervous system in mice homozygous Viciana, A.L. See Salas, Rodriguez, Viciana, Vega-Salas, and Hauri. for disrupted microtubule-associated protein IB (MAPIB) gene. Viehover, A. See Vartanian, Goodearl, Viehover, and Fischbach. 1615. Vogel, J.M., Steams, T., Rieder, C.L., and Palazzo, R.E. Cen- Taxis, S. See Weiss, Sleeman, Renkl, Dittmar, Termeer, Taxis, Howells, trosomes isolated from Spisula solidissima oocytes contain rings Hofmann, Kohler, Schbpf, Ponta, Herrlich, and Simon. and an unusual stoichiometric ratio of a/p tubulin. 193. Taylor-Papadimitriou, J. See Whitehouse, Burchell, Gschmeissner, Voit, R. See Falciola, Spada, Calogero, Langst, Voit, Grummt, and Brockhausen, Lloyd, and Taylor-Papadimitriou. Bianchi. Teitelbaum, S.L. See Abu-Amer, Ross, Schlesinger, Tondravi, and Teitelbaum. Tempst, P. See Paek, Orci, Ravazzola, Erdjument-Bromage, Amherdt, Tempst, Sollner, and Rothman. Terlecky, S.R. See Agarraberes, Terlecky, and Dice. W Termeer, C.C. See Weiss, Sleeman. Renkl, Dittmar, Termeer, Taxis, Howells, Hofmann. Kohler, Schopf, Ponta, Herrlich, and Simon. Wagner, E.F. See Sabapathy, Pepper, Kiefer, Mohle-Steinlein, Terrian, D.M. See Prekeris and Tertian. Tacchini-Cottier, Fetka, Breier, Risau, Carmeliet, Montesano, Thibault, G. See Slot, Garruti, Martin, Oorschot, Posthuma, Kraegen, and Wagner. Laybutt, Thibault, and James. Wahiberg, J.M., and Spiess, M. Multiple determinants direct the ori¬ Thiery, J.P. See Savagner, Yamada, and Thiery. entation of signal-anchor proteins: The topogenic role of the hy¬ Tisdale, E J,, Plutner, H,, Matteson, J,, and Balch, W.E. p53/58 binds drophobic signal domain. 555. COPI and is required for selective transport through the early Walch-Solimena, C., Collins, R.N., and Novick, PJ. Sec2p mediates secretory pathway. 581. nucleotide exchange on Sec4p and is involved in polarized deliv¬ Tomasetto, C. See Okada, Tomasetto, Lutz, Bellocq, Rio, and Basset. ery of post-Golgi vesicles. 1495. Tondravi, M.M. See Abu-Amer, Ross, Schlesinger, Tondravi, and Wang, F. See Weaver, Petersen, Wang, Larabell, Briand, Damsky, Teitelbaum. and Bissell. Trapp, B.D,, Nishiyama, A,, Cheng, D,, and Macklin, W. Differentia¬ Wang, S. See Graham, Johnson, Wang, Sibley, Gupta, and Kramer. tion and death of premyelinating oligodendrocytes in developing Wang, X.M., Zhai, Y., and Ferrell, J.E., Jr, A role for mitogen- rodent brain. 459. activated protein kinase in the spindle assembly checkpoint in Trowbridge, I.S. See Odorizzi and Trowbridge. XTC cells. 433. Tsukita, S. See Sakakibara, Furuse, Saitou, Ando-Akatsuka, and Warren, G, See Shima, Haidar, Pepperkok, Watson, and Warren. Tsukita. Watson, R. See Shima, Haidar, Pepperkok, Watson, and Warren. Tuvia, S. See Garver, Ren, Tuvia, and Bennett. Weaver, V.M., Petersen, O.W., Wang, F., Larabell, C.A., Briand, P., Damsky, C., and Bissell, M J. Reversion of the malignant pheno¬ type of human breast cells in three-dimensional culture and in vivo by integrin blocking antibodies. 231. U Webster, M.K. See Chen, Webster, Meyer, and Donoghue. Webster, P. See Rodriguez, Webster, Ortego, and Andrews. Ditto, J. See Koch, Mahoney, Ishikawa, Pulkkinen, Ditto, Shultz, Wehland, J. See Sechi, Wehland, and Small. Murphy, Whitaker-Menezes, and Stanley. Weiss, A. See Huby, Iwashima, Weiss, and Ley. Weiss, J.M., Sleeman, J., Renkl, A.C., Dittmar, H., Termeer, C.C., Taxis, S., Howells, N., Hofaiann, M., Kohler, G., Schopf, E., Ponta, H., Herrlich, P., and Simon, J.C. An essential role for CD44 variant isoforms in epidermal Langerhans cell and blood V dendritic cell function. 1137. Welgus, H.G. See Pilcher, Dumin, Sudbeck, Krane, Welgus, and Valcarcel, J. See Gama-Carvalho, Krauss, Chiang, Valcarcel, Green, Parks. and Carmo-Fonseca. Wente, S.R. See lovine and Wente. Valentine, J,S. See Longo, Ellerby, Bredesen, Valentine, and Gralla. Whitaker-Menezes, D. See Koch, Mahoney, Ishikawa, Pulkkinen, van Bergen en Henegouwen, P.M.P. See van Delft, Schumacher, Ditto, Shultz, Murphy, Whitaker-Menezes, and Stanley. Hage, Verkleij, and van Bergen en Henegouwen. Whitehouse, C., Burchell, J., Gschmeissner, S., Brockhausen, I., van Del^ S,, Schumacher, Hage, W,, Verkleij, AJ,, and van Bergen Lloyd, K.O., and Taylor-Papadimitriou, J. A transfected sialyl- en Henegouwen, P.M.P. Association and colocalization of transferase that is elevated in breast cancer and localizes to the Epsl5 with adaptor protein-2 and clathrin: Correction. 259. medial/frans-Golgi apparatus inhibits the development of core- van der Kammen, R.A. See Michiels, Stam, Hordijk, van der Kammen, 2-based O-glycans. 1229. Ruuls-Van Stalle, Feltkamp, and Collard. Wilkerson, C.G. See Koutoulis, Pazour, Wilkerson, Inaba, Sheng, Vandevoorde, V., Haegeman, G., and Piers, W. Induced expression Takada, and Witman. of trimerized intracellular domains of the human tumor necrosis Wilson, N.F., Foglesong, MJ., and Snell, WJ. The Chlamydomonas factor (TNF) p55 receptor elicits TNF effects. 1627. mating type plus fertilization tubule, a prototypic cell fusion or¬ van Hengel, J., Gohon, L., Bruyneel, E., Vermeulen, S., Comelissen, ganelle: Isolation, characterization, and in vitro adhesion to mat¬ M., Mareel, M., and van Roy, F. Protein kinase C activation up- ing type minus gametes. 1537. regulates intercellular adhesion of a-catenin-negative human Wismar, J. See Lenz-Bohme, Wismar, Fuchs, Reifegerste, Buchner, colon cancer cell variants via induction of desmosomes. 1103. Betz, and Schmitt. The Journal of Cell Biology, Volume 137, 1997 1692 Witman, G.B. See Koutoulis, Pazour, Wilkerson, Inaba, Sheng. Yee, A.G. See Hasson, Gillespie, Garcia, MacDonald, Zhao, Yee, Takada, and Witman. Mooseker, and Corey. Yokoyama, S. See Adachi, Takahashi, Hasebe, Shirouzu, Yokoyama, and Sutoh. Yoshida, O. See Nishiyama, Itoh, Kaneko, Kishishita, Yoshida, and X Fujita. Yu, H. See Blocker, Severin, Burkhardt, Bingham, Yu, Olivo, Xie, H.-q^ Laird, D.W^ Chang, T.-H., and Hu, V.W. A mitosis- Schroer, Hyman, and Griffiths. specific phosphorylation of the gap junction protein connexin43 Yu, Q.-C. See Yang, Gallicano, Yu, and Fuchs. in human vascular cells: Biochemical characterization and local¬ Yu, W., Kim, J., and Ossowski, L. Reduction in surface urokinase re¬ ization. 203. ceptor forces malignant cells into a protracted state of dor¬ mancy. 767. Yuan, R., PrimakofF, P., and Myles D.G. A role for the disintegrin domain of cyritestin, a sperm surface protein belonging to the Y ADAM family, in mouse spierm-egg plasma membrane adhe¬ sion and fusion. 105. Yamada, K.IVf. See Savagner, Yamada, and Thiery. Yamamoto, M. See Kitayama, Sugimoto, and Yamamoto. Yan, H. See Hua, Yan, and Newport. Z Yang, Liu, and DeFranco, D.B. Subnuclear trafficking of gluco¬ corticoid receptors in vitro: Chromatin recycling and nuclear ex¬ port. 523. Zanotti, S. See Rauch, Polzar, Stephan, Zanotti, Paddenberg, and Yang, Lm Guan, and Gerace, L. Integral membrane proteins of the Mannherz. nuclear envelope are dispersed throughout the endoplasmic Zegers, M.M,P. See van IJzendoom, Zegers, Kok, and Hoekstra. reticulum during mitosis. 1199. Zhai, Y. See Wang, Zhai, and Ferrell. Yang, Z.>h^ Gallicano, G.I^ Yu, Q.-C., and Fuchs, E. An unexpected Zhao, Y.-d. See Hasson, Gillespie, Garcia, MacDonald, Zhao, Yee, localization of basonuclin in the centrosome, mitochondria, and Mooseker, and Corey. acrosome of developing spermatids. 657. Zhu, X.-C. See Kislauskis, Zhu, and Singer. Yaniv, M. See Reyes, Muchardt, and Yaniv. Author Index 1693