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Journal of Cell Biology 1998: Vol 141 Index PDF

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Preview Journal of Cell Biology 1998: Vol 141 Index

AUTHOR INDEX VOLUME 141 A Belkin, A.M. See Zhong, Chrzanowska-Wodnicka, Brown. Shaub, Belkin, and Burridge. Abbondanza, C., Rossi, V., Roscigno, A., Gallo, L., Belsito, A., Belotserkovsky, V. See Suter, Errante, Belotserkovsky, and Forscher. Piluso, G., Medici, N., Nigro, V., Molinari, A.M., Moncharmont, Belsito, A. See Abbondanza, Rossi. Roscigno, Gallo, Belsito, Piluso, B., and Puca, G.A. Interaction of vault particles with estrogen Medici, Nigro. Molinari. Moncharmont. and Puca. receptor in the MCF-7 breast cancer cell. 1301. Ben-Ze’ev, A. See Simcha, Shtutman, Salomon, Zhurinsky, Sadot, Acakpo-Satchivi, L. See Sartorius, Lu, Acakpo-Satchivi, Jacobsen, Geiger, and Ben-Ze'ev. Byrnes, and Leinwand. Bertin, J. See Siegel. Martin, Zheng, Ng, Bertin, Cohen, and Lenardo. Adachi, E. See Yamamoto-Hino, Miyawaki, Segawa, Adachi, Beug, FI. See Wessely, Deiner, Lim. Mellitzer, Steinlein. and Beug. Yamashina, Fujimoto, Sugiyama, Furuichi, Hasegawa, and Beushausen, S. See Gindhart, Desai, Beushausen. Zinn, and Goldstein. Mikoshiba. Bitler, A. See Tuvia, Levin, Bitler, and Korenstein. Adachi, M. See- Naora, Takai, Adachi, and Naora. Bito, H. See Hirose, Ishizaki. Watanabe, Uehata. Kranenburg. .\gard, D.A. See Fung, Marshall, Dernburg, Agard, and Sedat. Moolenaar. Matsumura, Maekawa. Bito, and Narumiya. Agbunag, C. See Costa, Raich, Agbunag, Leung, Hardin, and Priess. Blackshaw, S. See Walensky. Gascard, Fields. Blackshaw, Conboy, Alfranca, A, See Yanez-M6, Alfranca, Cabanas, Marazuela, Tejedor, Mohandas, and Snyder. Ursa, Ashman, de Landazuri, and Sanchez-Madrid. Bloom, G.S., and Goldstein, L.S.B. Cruising along microtubule high¬ Allchin, E.H. See Futter, Gibson, Allchin, Maxwell, Ruddcxrk, Odorizzi, ways: How membranes move through the secretory pathway Domingo, Trowbridge, and Hopkins. [140(6): 1277]. Correction. 1095. Allen, W.E., Zicha, D., Ridley, A.J., and Junes, G.E. A role for Boldogh, I., Vojtov, N., Karmon, S., and Pon, L.A. Interaction be¬ Cdc42 in macrophage chemotaxis. 1147. tween mitochondria and the actin cytoskeleton in budding yeast Almeida, M. See Scatena, Almeida. Chaisson. Fausto, Nicosia, and requires two integral mitochondrial outer membrane proteins, Giachelli. Mmmlp and MdmlOp. 1371. Ainigorena, S. See Faigle, Raposo, Tenza, Pinet, Vogt, Kropshofer, — See Anderson, Boldogh, Evangelista, Boone, Greene, and Pon. Fischer, de Saint-Basile, and Amigorena. Boone, C. See Anderson. Boldogh, Evangelista, Boone, Greene, and Anderson, B.L., Buldogh, I., Evangelista, M., Boone, C., Greene, Pon. L.A., and Pon, L.A. The Src homology domain 3 (SH3) of a Burleis, J. See Peracino. Borleis. Jin, Westphal, Schwartz, Wu, yeast type 1 myosin, Myo5p, binds to verprolin and is required Bracco. Gerisch. Devreotes, and Bozzaro. for targeting to sites of actin polarization. 1357. Bornens, M. See Tassin, Celati. Moudjou. and Bornens. .Anderson, R.G.W. See Mineo, Ying, Chapline, Jaken, and Anderson. Busco, D. See Chanson. Fanjul, Bosco, Nelles, Suter. Willecke, and Andreassen, P.R., Lacroix, F.B., Villa-Moruzzi, E., and Margolis, Meda. R.I.. Differential subcellular localization of protein phosphatase-1 Bosco, P. See Elder, Friedrich, Bosco. Kang. Gourov, Tu. Lee. and a, -yl, and 8 isoforms during both interphase and mitosis in mam¬ Lazzarini. malian cells. 1207. Bowman, E.P. See Campbell, Bowman, Murphy, Youngman. Siani. Andrew, D.J. See Machado. Sunkel, and Andrew. Thompson, Wu, Zlotnik, and Butcher. Anton, M. See Passreiter. Anton. Lay. Frank, Harter. Wieland, Bozzaro, S. See Peracino, Borleis, Jin, Westphal, Schwartz. Wu. Gorgas, and Just. Bracco, Gerisch, Devreotes, and Bozzaro. Argon, Y. See Bass. Chiu. Argon, and Steiner. Bracco, E. See Peracino, Borleis, Jin, Westphal, Schwartz. Wu. Aridor, M., Weissman, J., Banny kh, S., Nuoffer, C., and Balch, W.E. Bracco, Gerisch, Devreotes, and Bozzaro. Cargo selection by the COPIl budding machinery during export Brackenhury, R. See Brady-Kalnay. Mourton, Nixon, Pietz. Kinch, from the ER. 61. Chen, Brackenbury, Rimm. Del Vecchio, and Tonks. Armstrong, R.T. See Qiao. Pelletier, Hoffman. Hacker. Armstrong, Brady-Kalnay, S.M., Mourton, T., Nixon, J.P., Pietz, G.E., Kinch, M., and White. Chen, H'., Brackenbury, R., Rimm, D.L., Del Vecchio, R.L., and Arndt-Jovin, D.J. See Buchenau, Hodgson, Strutt, and Arndt-Jovin. Tonks, N.K. Dynamic interaction of PTPjji with multiple cad- Arvan, P. See Klumperman, Kuliawat, Griffith, Geuze. and Arvan. herins in vivo. 287. Ashman, L.K. See Yanez-M6, Alfranca. Cabanas, Marazuela. Tejedor. Brenner, H.R. See Meier. Masciulli, Moore, Schoumacher, Eppen- Ursa. Ashman, de Landazuri, and Sanchez-Madrid. berger. Denzer. Jones, and Brenner. Ashworth, J. See Wess. Purslow. Sherratt, Ashworth, Shuttleworth, Brizzio, V., Gammie, A.E., and Rose, M.D. Rvsl61p interacts with and Kielty. Fus2p to promote cell fusion in Saccharomyces cerevisuie. 567. Avraham, H. See Kim, Lim, Ota, Raja. Rogers, Rivnay, Avraham. Bronson, R.T. See Brugarolas, Bronson, and Jacks. and Avraham. Brosius, J. See Muslimov. Banker, Brosius. and Tiedge. Avraham, S. See Kim, Lim, Ota. Raja, Rogers. Rivnay, Avraham, and Brown, J. See Zhong, Chrzanowska-Wodnicka, Brown, Shaub, Belkin, Avraham. and Burridge. Brown, N.H. See Martin-Bermudo. Dunin-Borkowski, and Brown. Brugarolas, J., Bronson, R.T., and Jacks, T. p21 is a critical CDK2 reg¬ ulator essential for proliferation control in /?/>-deficient cells. 503. Buchenau, P., Hodgson, J., Strutt, H., and Arndt-Jovin, DJ. The dis¬ B tribution of polycomb-group proteins during cell division and development in Drosophila embryos: Impact on models for si¬ Balch, W.E. See Aridor. Weissman, Bannykh, Nuoffer. and Balch. lencing. 469. Banker, G. See Muslimov. Banker. Brosius. and Tiedge. Burke, DJ. See Kallio, Weinstein, Daum. Burke, and Gorbsky. Bannykh, S. See Aridor. Weissman, Bannykh, Nuoffer, and Balch. Burridge, K. See Zhong, Chrzanowska-Wodnicka, Brown. Shaub. Barbas, J.A. See Torroja, Ortuno-Sahagiin, Ferriis. Hiimmerle, and Belkin, and Burridge. Barbas. Burrola, P. See Gondre, Burrola. and Weinstein. Barbat, A. See Huet, Hennebicq-Reig. de Bolos, Ulloa. Lesuffleur. Butcher, E.C. See Campbell. Bowman, Murphy. Youngman, Siani, Barbat. Carriere, Kim, Real. Delannoy, and Zweibaum. Thompson, Wu. Zlotnik, and Butcher. BardrofT, M, Sec Hauser. Bardroff, Pyrowolakis, and Jentsch. Buxbaum, R.E. See Heidemann and Buxbaum. Barkan, A. See Roy and Barkan. Byrnes, W.C. See Sartorius. Lu. Acakpo-Satchivi, Jacobsen. Byrnes, Barlowe, C. See VanRheenen. Cao, Lupashin. Barlowe, and Waters. and Leinwand. Bass, J., Chiu, G., Argon, Y., and Steiner, D.F. Folding of insulin re¬ ceptor monomers is facilitated by the molecular chaperones cal- nexin and calreticulin and impaired by rapid dimerization. 637. Beckers, CJ.M. See Karsten, Oi. Beckers. Reddy. Dubremetz. C Webster, and Joiner. Beech, P.L. See Cole, Diener, Himelblau. Beech, Fuster, and Cabanas, C, See Yanez-Mo. Alfranca. Cabanas. Marazuela, Tejedor. Rosenbaum. Ursa. Ashman, de Landazuri, and Sanchez-Madrid. Author Imle.x 1697 Cabodi, S. See Calautti. Cabodi. Stein, Hatzfeld. Kedersha, and Dotto. D Cabrera-Poch, N. See Shima. Cabrera-Poch. Pepperkok. and Warren. Cai, S. See de Belle. Cai, and Kohwi-Shigematsu. Dai, J. See Gerald, Dai, Ting-Beall, and De Lozanne. Calautti, E., Cabodi, S., Stein, P.L., Hatzfeld, M., Kedersha, N., and Dai, Z.. and Peng, H.B. A role of tyrosine phosphatase in acetylcho¬ Dotto, G.P. Tyrosine phosphorylation and Src family kinases line receptor cluster dispersal and formation. 1613. control keratinocyte cell-cell adhesion. 1449. D’Amore, P.A. See Hirschi, Rohovsky, and D'Amore. Campbell, JJ., Bowman, E.P., Murphy, K., Youngman, K.R., Siani, Daum, J.R. See Kallio, Weinstein, Daum, Burke, and Gorbsky. M.A., Thompson, D.A., Wu, L., Zlotnik, A., and Butcher, E.C. de Belle, L, Cai, S., and Kohwi-Shigematsu, T. The genomic se¬ 6-C-kine (SLC), a lymphocyte adhesion-triggering chemokine quences bound to special AT-rich sequence-binding protein 1 expressed by high endothelium, is an agonist for the MIP-3P re¬ (SATBl) in vivo in Jurkat T cells are tightly associated with the ceptor CCR7. 1053. nuclear matrix at the bases of the chromatin loops. 335. Cancilla, M.R. See Hudson, Fowler, Earle, Saffery. Kalitsis, Trowell, de Bolus, C. See Huet, Hennebicq-Reig, de Bolos, Ulloa, Lesuffleur, Hill, Wreford. de Kretser, Cancilla, Howman, Hii, Cutts. Irvine, Barbat, Carriere, Kim, Real, Delannoy, and Zweibaum. and Choo, Deiner, E.-M. See Wessely, Deiner. Lim, Mellitzer, Steinlein, and Beug. Cao, X. See VanRheenen. Cao, Lupashin. Barlowe, and Waters. de Kretser, D.M. See Hudson, Fowler, Earle, Saffery, Kalitsis, Trowell, Carriere, V. See Huet. Hennebicq-Reig, de Bolos. Ulloa, Lesuffleur. Hill, Wreford, de Kretser, Cancilla. Howman, Hii. Cutts, Irvine, Barbat, Carriere, Kim. Real. Delannoy, and Zweibaum. and Choo. Carrington, W, See Dictenberg. Zimmerman, Sparks, Young, Vidair. de Landazuri, M.O. .See Yanez-M6. Alfranca, Cabanas, Marazuela, Zheng, Carrington, Fay, and Doxsey. Tejedor, Ursa, Ashman, de Landazuri, and Sanchez-Madrid. Carroll, H. See Chakravarti, Magnuson, Lass. Jepsen. LaMantia, and Delannoy, P. See Huet, Hennebicq-Reig, de Bolos, Ulloa, Lesuffleur, Carroll. Barbat, Carriere, Kim, Real, Delannoy, and Zweibaum. Carter, P, See Matthews. Carter. Thierry-Mieg, and Kemphues. De Lozanne, A. See Gerald, Dai, Ting-Beall, and De Lozanne. Cecil, J.K. See Li. Xu. Cecil, Turner. Megraw, and Kaufman. Del Vecchio, R.L. See Brady-Kalnay, Mourton, Nixon, Pietz. Kinch. Celati, C. See Tassin. Celati, Moudjou. and Bornens. Chen. Brackenbury, Rimm, Del Vecchio, and Tonks. Chaisson, M,L. See Scatena. Almeida. Chaisson, Fausto, Nicosia, and De Mey, J.R. See Dujardin. Wacker. Moreau, Schroer, Rickard, and Giachelli. De Mey. Chakravarti, S., Magnuson, T., Lass, J.H., Jepsen, K J., LaMantia, C., Denzer, AJ. See Meier, Masciulli, Moore, Schoumacher, Eppen- and Carroll, H. Lumican regulates collagen fibril assembly: Skin berger, Denzer, Jones, and Brenner. fragility and corneal opacity in the absence of lumican. 1277. de Pereda, J.M. See Rezniczek, de Pereda, Reipert. and Wiche. Chanson, M., Fanjul, M., Bosco, D., Nelles, E., Suter, S., Willecke, K., Dernburg, A. See Fung, Marshall, Dernburg, Agard, and Sedat. and Meda, P. Enhanced secretion of amylase from exocrine pan¬ Desai, A., Maddox, P.S., Mitchison, T.J., and Salmon, E.D. creas of connexin32-deficient mice. 1267. Anaphase A chromosome movement and poleward spindle mi¬ Chapin, SJ, See Low. Chapin. Wimmer, Whiteheart, Kdmiives, Mostov, crotubule flux occur at similar rates in Xenopus extract spindles. and Weimbs. 703. Chapline, C. See Mineo. Ying, Chapline, Jaken, and Anderson. Desai, CJ. See Gindhart, Desai, Beushausen, Zinn, and Goldstein. Chardin, P. See Nobes, Lauritzen, Mattei, Paris. Hall, and Chardin. de Saint-Basile, G. See Faigle, Raposo, Tenza, Pinet, Vogt, Kropshofer, Cheah, K.S.E. See Leung. Ng, Ho, Tam, and Cheah. Fischer, de Saint-Basile, and Amigorena. Chen, D, See Mbalaviele, Nishimura, Myoi. Niewolna, Reddy. Chen, de Saint Phalle, B., and Sullivan, W. Spindle assembly and mitosis Feng. Roodman, Mundy, and Yoneda. without centrosomes in parthenogenetic Sciara embryos. 1383. Chen, H. See Brady-Kalnay, Mourton, Nixon. Pietz. Kinch, Chen. Devreotes, P. See Peracino, Borleis, Jin. Westphal, Schwartz, Wu, Brackenbury. Rimm, Del Vecchio, and Tonks. Bracco, Gerisch, Devreotes. and Bozzaro. Chen, R.-H. See Gorbsky, Chen, and Murray. De Vries, L. See Lin, Le-Niculescu, Hofmeister, McCaffery, Jin, — See Waters, Chen, Murray, and Salmon. Hennemann, McQuistan, De Vries, and Farquhar. Chen, X.P., Yin, H., and Huffaker, T.C, The yeast spindle pole body Dickmanns, A. See Kehlenbach. Dickmanns. and Gerace. component Spc72p interacts with Stu2p and is required for Dictenberg, J.B., Zimmerman, W., Sparks, C.A., Young, A., Vidair, proper microtubule assembly. 1169. C., Zheng, Y., Carrington, W,, Fay, F.S., and Doxsey, S.J. Peri- Chiu, G. See Bass. Chiu, Argon, and Steiner. centrin and y-tubulin form a protein complex and are organized Choo, K.H.A. See Hudson, Fowler, Earle, Saffery. Kalitsis, Trowell, into a novel lattice at the centrosome. 163. Hill. Wreford, de Kretser. Cancilla, Howman, Hii. Cutts, Irvine, DiDonato, J.A. See Lin, DiDonato, Hoffmann. Hardwick, and Ratan. and Choo. Diener, D.R. See Cole. Diener, Himelblau, Beech, Fuster. and Christensen, E.L See Nykjaer. Christensen, Vorum, Hager. Petersen, Rosenbaum. Rpigaard, Min, Vilhardt, Mpller. Kornfeld, and Gliemann. Dixon, J.L. See Du. Stoops, Mertz, Stanley, and Dixon. Chrzanowska-Wodnicka, M. See Zhong, Chrzanowska-Wodnicka. Doi, Y. See Saitou. Fujimoto. Doi, Itoh, Fujimoto, Furuse, Takano, Brown. Shaub, Belkin, and Burridge. Noda, and Tsukita. Claas, A. See Claas, Seiter, Claas. Savelyeva, Schwab, and Zoller. Domingo, D. See Futter. Gibson, Allchin. Maxwell, Ruddock, Odoriz^'i. Claas, C., Seiter, S., Claas, A., Savelyeva, L., Schwab, M., and Zoller, Domingo, Trowbridge, and Hopkins. M. Association between the rat homologue of CO-()29. a me¬ Dorns, R.W. See Skovronsky, Dorns, and Lee. tastasis-associated tetraspanin molecule and consumption coag¬ Dotto, G.P. See Calautti. Cabodi. Stein, Hatzfeld. Kedersha, and Dotto. ulopathy. 267. Doxsey, SJ. See Dictenberg, Zimmerman. Sparks, Young, Vidair, Cohen, J. See Siegel. Martin. Zheng, Ng, Bertin, Cohen, and Lenardo. Zheng. Carrington, Fay, and Doxsey. Cole, D.G., Diener, D.R., Himelblau, A.L., Beech, P.L., Foster, J.C., Du, X., Stoops, J.D., Mertz, J.R., Stanley, C.M., and Dixon, J.L. and Rosenbaum, J.L. Chlamydonumas kinesin-ll-dependent Identification of two regions in apolipoprotein BUK) that are intraflagellar transport (IFT): IFT particles contain proteins re¬ exposed on the cytosolic side of the endoplasmic reticulum quired for ciliary assembly in Caenorhahditis elegans sensory membrane. 585. neurons. 993. Dubremetz, J.-F. See Karsten, Qi, Beckers. Reddy, Dubremetz. Conb«»y, J.G. See Walensky, Gascard, Fields, Blackshaw, Conboy. Webster, and Joiner. Mohandas, and Snyder. Dujardin, D., Wacker, U.L, Moreau, A., Schroer, T.A., Rickard, J.E., Consalez, G.G. See Guttinger, Sutti, Panigada, Porcellini. Merati, and De Mey, J.R. Evidence for a role of CLIP-170 in the estab¬ Mariani, Teesalu. Consalez, and Grassi. lishment of metaphase chromosome alignment. 849. Cook, T.A., Nagasaki, T., and Gundersen, G.G. Rho guanosine tri¬ Dunin-Borkowski, O.M. See Martin-Bermudo, Dunin-Borkowski, phosphatase mediates the selective stabilization of microtubules and Brown. induced by lysophosphatidic acid. 175. Costa, M.. Raich, W., Agbunag, C., Leung, B., Hardin, J., and Priess, J.R. A putative catenin-cadherin system mediates morphogene¬ sis of the Caenorhahditis elegans embryo. 297. Croall, D.E. See Potter, Tirnauer. Janssen, Croall, Hughes, Fiacco. E Mier, Maki, and Herman. Cutts, S.M. See Hudson. Fowler, Earle, Saffery, Kalitsis, Trowell, Earle, E. See Hudson, Fowler, Earle, Saffery, Kalitsis, Trowell, Hill, Hill. Wreford. de Kretser, Cancilla, Howman, Hii, Cutts, Irvine, Wreford, de Kretser, Cancilla, Howman, Hii, Cutts. Irvine, and and Choo. Choo. The Journal of Cell Biology, Volume 141, 1998 1698 Egel, R. See Petersen, Nielsen, Egel, and Hagan. Furuichi, T. See Yamamoto-Hino, Miyawaki, Segawa. Adachi. Elder, G.A., Friedrich, V.L., Jr., Bosco, P., Kang, C., Gourov, A., Tu, Yamashina, Fujimoto, Sugiyama, Furuichi, Hasegawa. and P.-H., Lee, V.M.-Y., and Lazzarini, R.A. Absence of the mid¬ Mikoshiba. sized neurofilament subunit decreases axonal calibers, levels of Furuse, M., Fujita, K., Hiiragi, T., Fujimoto, K., and Tsukita, S. Claudin-1 light neurofilament (NF-L), and neurofilament content. 727. and -2; Novel integral membrane proteins localizing at tight Emr, S.D. See Wendland and Emr. junctions with no sequence similarity to occludin. 1539. Eppenberger, U. See Meier, Masciulli, Moore, Schoumacher, Eppen- — See Saitou, Fujimoto, Doi, Itoh, Fujimoto, Furuse. Takano. Noda. berger, Denzer, Jones, and Brenner. and Tsukita. Errante, L.D. See Suter, Errante, Belotserkovsky, and Forscher. Fuster, J.C. See Cole, Diener, Himelblau, Beech, Foster, and Evangelista, M. See Anderson, Boldogh, Evangelista, Boone, Rosenbaum. Greene, and Pon. Futter, C.E., Gibson, A., Allchin, E.H., Maxwell. S., Ruddock, LJ., Odorizzi, G., Domingo, U., Trowbridge, I.S., and Hopkins, C.R. In polarized MDCK cells basolateral vesicles arise from clathrin- y-adaptin-coated domains on endosomal tubules. 611. F Faigle, W., Rapusu, G., Tenza, D., Pinet, V., Vogt, A.B., Kropshofer, H., Fischer, A., de Saint-Basile, G., and Amigurena, S. Deficient G peptide loading and MHC class II endosomal sorting in a human genetic immunodeficiency disease; The Chediak-Higashi syn¬ Gallo, L. See Abbondanza, Rossi. Roscigno, Gallo, Belsito, Piluso, drome. 1121. Medici, Nigro, Molinari, Moncharmont, and Puca. Fanjul, M. See Chanson, Fanjul, Bosco, Nelles, Suter, Willecke, and Galloway, A.C. See Seghezzi, Patel, Ren, Gualandris, Pintucci. Robbins, Meda. Shapiro. Galloway, Rifkin, and Mignatti. Farquhar, M.G. See Lin, Le-Niculescu, Hofmeister, McCaffery, Jin, Gammie, A.E. See Brizzio, Gammie, and Rose. Hennemann, McQuistan, De Vries, and Farquhar. Gascard, P. See Walensky, Gascard, Fields, Blackshaw, Conboy. Fassler, R. See Sakai, Zhang, Fassler, and Mosher. Mohandas, and Snyder. Fausto, N. See Scatena. Almeida. Chaisson. Fausto, Nicosia, and Geiger, B. See Simcha, Shtutman, Salomon, Zhurinsky, Sadot. Giachelli. Geiger, and Ben-Ze’ev. Fay, F.S. See Dictenberg, Zimmerman, Sparks, Young, Vidair, Gerace, L. See Kehlenbach, Dickmanns, and Gerace. Zheng, Carrington, Fay. and Doxsey. Gerald, N., Dai, J., Ting-Beall, H.P., and De Lozanne, A. A role for Fehon, R.G. See LaJeunesse, McCartney, and Fehon. Dictyosteliiim RacE in cortical tension and cleavage furrow pro¬ Feng, J. See Mbalaviele, Nishimura, Myoi, Niewolna, Reddy, Chen, gression. 483. Feng, Roodman, Mundy, and Yoneda. Gerisch, G. See Peracino, Borleis, Jin. Westphal, Schwartz, Wu. Ferguson-Maltzman, M. See Wolf, Jobling, Wimer-Mackin, Ferguson- Bracco. Gerisch, Devreotes, and Bozzaro. Maltzman, Madara, Holmes, and Lencer. Geuze, H J. See Klumperman, Kuliawat, Griffith, Geuze, and Arvan. Ferrari, M.B., Ribbeck. K., Hagler, DJ., Jr., and Spitzer, N.C. A cal¬ Giachelli, C.M. See Scatena, Almeida, Chaisson. Fausto. Nicosia, and cium signaling cascade essential for myosin thick filament as¬ Giachelli. sembly in Xenopus myocytes. 1349. Gibson, A. See Futter, Gibson. Allchin, Maxwell, Ruddock. Odorizzi, Ferrus, A. See Torroja. Ortuno-Sahagun, Ferrus, Hammerle, and Barbas. Domingo, Trowbridge, and Hopkins. Fiacco, K.A. See Potter, Tirnauer, Janssen, Croall, Hughes, Fiacco, Gindhart, J.G., Jr., Desai, CJ., Beushausen, S., Zinn, K., and (loldstein, Mier, Maki, and Herman. L.S.B. Kinesin light chains are essential for axonal transport in Fields, M.E. See Walensky, Gascard, Fields, Blackshaw, Conboy, Drosophila. 443. Mohandas, and Snyder. (iliemann, J. See Nykjaer, Christensen, Vorum, Hager, Petersen, Filmus, J. See Gonzalez, Kaya, Shi. Song. Testa, Penn, and Filmus. Rpigaard. Min, Vilhardt, Mpller, Kornfeld, and Gliemann. Fischer, A. See Faigle, Raposo, Tenza. Pinet. Vogt, Kropshofer. Cioldfinger, L.E.. Stack, M.S., and Jones, J.C.R. Processing of laminin- Fischer, de Saint-Basile, and Amigorena. 5 and its functional consequences: Role of plasmin and tissue-type Fishman, P.H. See Orlandi and Fishman. plasminogen activator. 255. Forbes, D. See Shah, Tugendreich, and Forbes. Goldstein, L.S.B. See Bloom and Goldstein. Forscher, P. See Suter. Errante, Belotserkovsky. and Forscher. — See Gindhart, Desai. Beushausen. Zinn, and Goldstein. Fowler, K.J. See Hudson, Fowler, Earle. Saffery, Kalitsis, Trowell, Gondre, M., Burrola, P., and Weinstein, D.E. Accelerated nerve re¬ Hill. Wreford, de Kretser, Cancilla, Howman, Hii. Cutts, Irvine, generation mediated by Schwann cells expressing a mutant form and Choo. of the POU protein SCIP. 493. Frank, R. See Passreiter, Anton, Lay. Frank, Harter, Wieland, Gorgas, Gonzalez, A.D., Kaya, M., Shi, W., Song, H., Testa, J.R., Penn, L.Z., and Just. and Filmus, J, OC1-5/GPC3, a glypican encoded by a gene that is Friedrich, V.L., Jr. See Elder, Friedrich. Bosco. Kang, Gourov, Tu. mutated in the Simpson-Golabi-Behmel overgrowth syndrome, Lee, and Lazzarini. induces apoptosis in a cell line-specific manner. 1407. Fry, A.M., Mayor, T., Meraldi, P., Stierhof, Y.-D., Tanaka, K., and Gorbsky, GJ., Chen, R.-H., and Murray, A.W. Microinjection of Nigg, E.A. C-Napl, a novel centrosomal coiled-coil protein and antibody to Mad2 protein into mammalian cells in mitosis in¬ candidate substrate of the cell cycle-regulated protein kinase duces premature anaphase. 1193. Nek2. 1563. — See Kallio, Weinstein, Daum, Burke, and Gorbsky. Fuchs, E. See Smith and Fuchs. Gordon, J.I, See Wong, Rubinfeld, and Gordon. Fujimoto. K. See Furuse. Fujita, Hiiragi, Fujimoto. and Tsukita. Gorgas, K. See Passreiter, Anton, Lay, Frank, Harter, Wieland, Gorgas, — See Saitou. Fujimoto, Doi. Itoh. Fujimoto, Furuse, Takano. Noda. and Just. and Tsukita. Gourov, A. See Elder, Friedrich, Bosco, Kang, Gourov, Tu. Lee. and Fujimoto, T. See Saitou. Fujimoto, Doi, Itoh, Fujimoto, Furuse, Lazzarini. Takano, Noda, and Tsukita. Grassi, F. See Guttinger, Sutti, Panigada, Porcellini, Merati. Mariani, — Yamamoto-Hino, Miyawaki, Segawa, Adachi, Yamashina, Teesalu, Consalez. and Grassi. Fujimoto, Sugiyama, Furuichi, Hasegawa, and Mikoshiba. Greene, L.A. See Anderson, Boldogh, Evangelista. Boone, Greene, Fujita, K. See Furuse, Fujita, Hiiragi. Fujimoto, and Tsukita. and Pon. Fukata, Y., Kimura, K., Oshiro, N., Saya, H., Matsuura, Y., and Griffith, J.M. See Klumperman, Kuliawat, Griffith, Geuze, and Arvan. Kaibuchi, K. Association of the myosin-binding subunit of myo¬ Gross, H. See Hoenger, Sack, Thormahlen, Marx. Muller, Gross, and sin phosphatase and moesin: Dual regulation of moesin phos¬ Mandelkow. phorylation by Rho-associated kinase and myosin phosphatase. Gu, L. See Haskins, Gu, Wittchen. Hibbard, and Stevenson. 409. Ciualandris, A. See Seghezzi. Patel. Ren. Gualandris, Pintucci, Robbins, Funakoshi, T. See Yonekaw-a, Harada, Okada, Funakoshi, Kanai, Shapiro, Galloway, Rifkin, and Mignatti. Takei, Terada. Noda. and Hirokawa. Guibins, E. See Lepple-Wienhues. Szabo, Laun, Kaba. Gulbins, and Fung, J.C., Marshall, W.F., Dernburg, A., Agard, D.A., and Sedat, Lang. J.W. Homologous chromosome pairing in Drosophila melano- Gumbiner, B.M. See Yap, Niessen, and Gumbiner. gaster proceeds through multiple independent initiations. 5. Gunawardane, R.N. See Martin, Gunawardane, Iwamatsu, and Zheng. Author huie.x 1699 (•undersell, G.G. See Cook, Nagasaki, and Gundersen. Hirokawa, N. See Harada. Takei, Kanai, Tanaka, Nonaka. and (lUttinger, M., Sutti, F„ Punigada, \I~, Porcellini, S,, Merati, B., IVlariani, Hirokawa. M., Teesalu, T., Consalez, G.G., and Grassi, F. Epithelial V-like — See Yonekawa. Harada, Okada, Funakoshi. Kanai, Takei. Terada, antigen (EVA), a novel member of the immunoglobulin super¬ Noda. and Hirokawa. family, expressed in embryonic epithelia with a potential role as Hirose, M., Ishizaki, T., Watanabe, N., Uehata, M., Kranenburg, ()., homotypic adhesion molecule in thymus histogenesis. 1061. Moulenaar, W.H., Matsumura, F., Maekawa, M., Bitu, H., and Narumiya, S. Molecular dissection of the Rho-associated protein kinase (pl6()ROCK)-regulated neurite remodeling in neuroblas¬ toma N IE-115 cells. 1625. H Hirschi, K.K., Rohovsky, S.A., and D'Amore, P.A. PDGF. TGF-p, and heterotypic cell-cell interactions mediate endothelial cell- Haekam. A.S„ Singaraja, R., Wellington. C.L., IMetzler, IVfIVIcCutcheon, induced recruitment of lOTl/2 cells and their differentiation to a K., Zhang. T., Kalchman, IM., and Hayden. IVl.R. The intluence smooth muscle fate. 805. Correction. 1287. of huntingtin protein size on nuclear localization and cellular Ho, K.K.Y. See Leung, Ng. Ho. Tam, and Cheah. toxicity. 1097. Hocking, D.C., Sottile, J., and McKeown-Longo, P.J. Activation of Hacker, J. See Qiao. Pelletier, Hoffman. Hacker, Armstrong, and White. distinct «5pi -mediated signaling pathways by fibronectin's cell Hagan, I.M. See Peteisen. Nielsen, Egel, and Hagan. adhesion and matrix assembly domains. 241. Hager, H. See Nykjier. Christensen, Vorum, Hager. Petersen, Hodgson, J. See Buchenau. Hodgson, Strutt, and Arndt-Jovin. Rpigaard. Min. Vilhardt. Mpller. Kornfeld, and Gliemann. Hoenger, A., Sack, S., Thormiihlen, M., Marx, A., Miillcr, J., Gross, Hagler, 1)J., Jr. See Ferrari. Ribbeck. Hagler. and Spitzer. H., and Mandelkow, E. Image reconstructions of microtubules Hall. A. See Nobes. Lauritzen, Mattel, Paris, Hall, and Chardin. decorated with monomeric and dimeric kinesins: Comparison Hammerle, B. See Torroja. Ortuno-Sahagiin, Ferriis, Hammerle, and with x-ray structure and implications for motility. 419. Barbas. Hoffman, L. See Qiao. Pelletier, Hoffman, Hacker. Armstrong, and Harada, A., Takei, Y., Kanai, Y„ Tanaka. Y., Nonaka. S., and Hirokawa, White. N. Golgi vesiculation and lysosome dispersion in cells lacking cy¬ Hoffmann, A. See Lin, DiDonato, Hoffmann, Hardwick, and Ratan. toplasmic dynein. 51. Hofmeister, R. See Lin, Le-Niculescu. Hofmeister. McCaffery, Jin. — See Yonekawa. Harada. Okada, Funakoshi. Kanai. Takei. Terada. Hennemann. McQuistan, De Vries, and Farquhar. Noda, and Hirokawa. Holmes, R.K. See Wolf, Jobling. Wimer-Mackin, Ferguson-Maltzman, Harder, T., Scheiffele, P., Verkade, P., and Simons, K. Lipid domain Madara, Holmes, and Lencer. structure of the plasma membrane revealed by patching of mem¬ Holmes, S. See Wigge. Jensen, Holmes, Soues. Mann, and Kilmartin. brane components. 929. Hopkins, C,R. See Futter. Gibson. Allchin. Maxwell, Ruddock. Qdorizzi. Hardin, J. See Costa, Raich. Agbunag, Leung, Hardin, and Priess. Domingo, Trowbridge, and Hopkins. Hardwick, J.M. See Lin. DiDonato. Hoffmann, Hardwick, and Ratan. Horwitz, A.F, See Huttenlocher, Lakonishok. Kinder, Wu, Truong, Hardy, S. See Jin. Hardy, and Morgan. Knudsen, and Horwitz. Harter, C. See Passreiter. Anton. Lay, Frank, Harter, W'ieland. Gorgas, Howman, E. See Hudson. Fowler. Earle. Saffery. Kalitsis, Trowell, and Just. Hill. Wreford. de Kretser. Cancilla, Howman. Hii, Cutts, Irvine, Hartmann, E. See Kalies. Rapoport. and Hartmann. and Choo. Hasegawa, M. See Yamamoto-Hino. Miyawaki, Segawa, Adachi, Hu, X. See LaVallee, Prudovsky. McMahon, Hu, and Maciag. Yamashina, Fujimoto. Sugiyama, Furuichi, Hasegawa, and Hubbard, A.L. See Ihrke. Martin, Shanks, Schrader. Schroer, and Mikoshiba. Hubbard. Haskins, J., (>u, L., Wittchen, E.S., Hibbard, J., and Stevenson, B.R. Hudson, D.F., Fowler, KJ., Earle, E., Saffery, R., Kalitsis, P., Trowell, ZO-3. a novel member of the MAGUK protein family found at H., Hill, J„ Wreford, N.CL, de Kretser, D.M., Cancilla, M.R., the tight junction, interacts with ZO-1 and occludin. 199. Howman, E., Hii, L., Cutts, S.M., Irvine, I).V., and Choo, Hato, T., Pampori, N., and Shattil, SJ. Complementary roles for re¬ K.H.A. Centromere protein B null mice are mitotically and mei- ceptor clustering and conformational change in the adhesive and otically normal but have lower body and testis weights. 309. signaling functions of integrin 1685. Huet, (>., Hennebicq-Reig, S., de Bolos, C., Ulloa, F., Lesuffleur, T., Hatzfeld, M. See Calautti, Cabodi. Stein. Hatzfeld. Kedersha, and Dotto. Barbat, A., Carriere, V., Kim, I., Real, F.X., Delannoy, P., and Hauser, H.-P., BardrofT, M., Pyrowolakis, G., and Jentsch, S. A giant Zweibaum, A. GalNAc-«-0-benzyl inhibits NeuAca2-3 glycosy- ubiquitin-conjugating enzyme related to lAP apoptosis inhibi¬ lation and blocks the intracellular transport of apical glycopro¬ tors. 1415. teins and mucus in differentiated HT-29 cells. 1311. Hay, J.C., Klumperman, J., Oorschot. V., Steegmaier, IVf., Kuo, C.S., Huffaker, T.C. See Chen. Yin, and Huffaker. and Scheller, R.H. Localization, dynamics, and protein interac¬ Hughes, C.N. See Potter. Tirnauer. Janssen, Croall. Hughes, Fiacco, tions reveal distinct roles for ER and Golgi SNAREs. 1489. Mier, Maki. and Herman. Hayden, M.R. See Haekam. Singaraja, Wellington. Metzler. McCutcheon. Huttenlocher, A., Lakonishok, M., Kinder, M., Wu, S., Truong, T^ Zhang. Kalchman, and Hayden. Knudsen, K.A., and Horwitz, A.F. Integrin and cadherin synergy Heidemann, S.R.. and Buxbaum, R.E. Cell crawling: First the motor, regulates contact inhibition of migration and motile activity. 515. now the transmission. 1. Heinegard, I). See Wendel. Sommarin. and HeinegSrd. Henley, J.R., Krueger, E.W.A., Oswald, B.J., and McNiven, M.A. Dynamin-mediated internalization of caveolae. 85. 1 Hennebicq-Reig, S. See Huet, Hennebicq-Reig. de Bolos. Ulloa. Lesuffleur. Barbat, Carriere. Kim, Real. Delannoy, and Ihrke, G., Martin, G.V., Shanks, M.R., Schrader, M., Schroer, T.A., Zweibaum. and Hubbard, A.L. Apical plasma membrane proteins and en- Hennemann, H. 5ee Lin. Le-Niculescu, Hofmeister. McCaffery, Jin, dolyn-78 travel through a subapical compartment in polarized Hennemann. McQuistan, De Vries, and Farquhar. WIF-B hepatocytes. 115. Herman. I.M. See Potter. Tirnauer. Janssen, Croall, Hughes. Fiacco. Irvine, D.V. See Hudson, Fowler, Earle, Saffery, Kalitsis, Trowell, Mier. Maki, and Herman. Hill, Wreford, de Kretser, Cancilla, Howman. Hii, Cutts. Irvine, Hibbard. J. See Haskins, Gu. Wittchen, Hibbard, and Stevenson. and Choo. Hicke, L.. Zanolari. B., and Riezman. H. Cytoplasmic tail phosphory¬ Ishizaki, T. See Hirose. Ishizaki. Watanabe. Uehata. Kranenburg, lation of the a-factor receptor is required for its ubiquitination Moolenaar. Matsumura. Maekawa, Bito, and Narumiya. and internalization. 349. Itoh, M. See Saitou. Fujimoto, Doi. Itoh, Fujimoto, Furuse, Takano, Hii, L. See Hudson. Fowler, Earle. Saffery. Kalitsis. Trowell. Hill, Noda. and Tsukita. Wreford. de Kretser, Cancilla. Howman, Hii, Cutts, Irvine, and Iwamatsu, A. See Martin. Gunawardane. Iwamatsu. and Zheng. Choo. Hiiragi, T. See Furuse, Fujita, Hiiragi. Fujimoto, and Tsukita. Hill, J. See Hudson. Fowler. Earle, Saffery, Kalitsis, Trowell, Hill. Wreford, de Kretser. Cancilla, Howman. Hii, Cutts, Irvine, and Choo. J Himelblau. A.L. See Cole, Diener. Himelblau. Beech, Fuster, and Rosenbaum. Jacks, T. See Brugarolas. Bronson, and Jacks. The Journal of Cell Biology. Volume 141. 1998 17(X) Jacobsen, R.P. See Sartorius. Lu, Acakpo-Satchivi. Jacobsen, Byrnes, Kim, T.-A., Lim, J., Ota, S., Raja, S., Rogers, R., Rivnay, B„ Avraham, and Leinwand. H., and Avraham, S. NRP/B, a novel nuclear matrix protein, as¬ Jaken, S. See Mineo, Ying, Chapline, Jaken, and Anderson. sociates with pi lO*^® and is involved in neuronal differentiation. Janssen, R. See Potter, Tirnauer, Janssen, Croall, Hughes, Fiacco, 553. Mier, Maki, and Herman. Kimura, K. See Fukata, Kimura, Oshiro, Saya, Matsuura. and Kaibuchi. Jensen, O.N. See Wigge, Jensen. Holmes, Soues, Mann, and Kilmartin. Kinch, M. See Brady-Kalnay, Mourton, Nixon. Pietz. Kinch, Chen. Jentsch, S, See Hauser, Bardroff, Pyrowolakis, and Jentsch. Brackenbury. Rimm. Del Vecchio, and Tonks. Jepsen, K.J. See Chakravarti. Magnuson, Lass. Jepsen, LaMantia, Kinder, M. See Huttenlocher, Lakonishok. Kinder, Wu, Truong, and Carroll. Knudsen, and Horwitz. Jin, M. See Lin. Le-Niculescu, Hofmeister, McCaffery, Jin. Hennemann. Klumperman, J., Kuliawat, R., Ciriflith, J.M., Cieuze, H J., and Arvan, P. McOuistan, De Vries, and Farquhar. Mannose 6-phosphate receptors are sorted from immature Jin, P., Hardy, S., and Morgan, D.O. Nuclear localization of cyclin B1 secretory granules via adaptor protein AP-1, clathrin, and syn- controls mitotic entry after DNA damage. 875. taxin 6-positive vesicles. 359. Jin, Q.-w., Trelles-Sticken, E., Scherthan, H., and LoidI, J. Yeast nu¬ — See Hay, Klumperman, Oorschot. Steegmaier, Kuo, and Scheller. clei display prominent centromere clustering that is reduced in Knudsen, K.A. See Huttenlocher, Lakonishok, Kinder, Wu, Truong, nondividing cells and in meiotic prophase. 21. Knudsen, and Horwitz. Jin, T. See Peracino, Borleis, Jin, Westphal, Schwartz, Wu, Bracco. Kohwi-Shigematsu, T. See de Belle, Cai, and Kohwi-Shigematsu. Gerisch. Devreotes. and Bozzaro. Koller, A. See Sakai, Koller, Rangell. Keller, and Subramani. Jobling, M.G. See Wolf, Jobling, Wimer-Mackin, Ferguson-Maltzman, Kbmiives, L.G. See Low. Chapin. Wimmer. Whiteheart, Kbmiives, Madara. Holmes, and Lencer. Mostov, and Weimbs. Jockusch, B.M. See Weiss, Kroemker, RUdiger, JtKkusch, and Rudiger. Korenstein, R. See Tuvia. Levin, Bitler, and Korenstein. Joiner, K.A. See Karsten, Qi, Beckers, Reddy, Dubremetz, Webster, Kornfeld, S. See Nykjaer, Christensen, Vorum, Hager. Petersen, and Joiner. Rpigaard, Min, Vilhardt, Mpller, Kornfeld. and Gliemann. Jones, G. See Meier, Masciulli, Moore. Schoumacher, Eppenberger, Kranenburg, O. See Hirose, Ishizaki. Watanabe. Uehata, Kranenburg. Denzer, Jones, and Brenner. Moolenaar, Matsumura. Maekawa, Bito, and Narumiya. Jones, G.E. See Allen. Zicha, Ridley, and Jones. Kroemker, M. See Weiss. Kroemker. Rudiger. Jockusch. and Rudiger. Jones, J.C.R. See Goldfinger, Stack, and Jones. Kropshofer, H. See Faigle. Raposo, Tenza. Pinet. Vogt. Kropshofer, Jontes, J.D., Ostap, E.M., Pollard, T.D., and Milligan, R.A. Three- Fischer, de Saint-Basile. and Amigorena. dimensional structure of Acanthamoeha castellanii myosin-lB Krueger, E.W.A. See Henley. Krueger. Oswald, and McNiven. (MIB) determined by cryoelectron microscopy of decorated ac- Kuliawat, R. See Klumperman, Kuliawat, Griffith, Geuze, and Arvan. tin filaments. 155. Kuo, C.S. See Hay, Klumperman, Oorschot, Steegmaier. Kuo, and Just, W.W. See Passreiter, Anton, Lay, Frank. Harter, Wieland, Gorgas, Scheller. and Just. L K Lacroix, F.B. See Andreassen, Lacroix, Villa-Moruzz.i. and Margolis. kaba, N.K. See Lepple-Wienhues. Szabo. Laun, Kaba, Gulbins. and LaJeunesse, D.R., McCartney, B.M., and Fehon, R.G. Structural Lang. analysis of Drosophila Merlin reveals functional domains impor¬ Kaibnchi, K. See Fukata. Kimura. Oshiro, Saya, Matsuura. and tant for growth control and subcellular localization. 1589. Kaibuchi. Lakonishok, M. See Huttenlocher, Lakonishok. Kinder. Wu. Truong, Kalchman, M. See Hackam, Singaraja, Wellington, Metzler, McCutcheon, Knudsen, and Horwitz. Zhang, Kalchman, and Hayden. LaMantia, C. See Chakravarti, Magnuson, Lass. Jepsen, LaMantia. Kalies, K.-G., Rapoport, T.A., and Hartmann, E. The |3 subunit of and Carroll. the Sec61 complex facilitates cotranslational protein transport Lang, F. See Lepple-Wienhues, Szabo, Laun, Kaba, Gulbins, and Lang. and interacts with the signal peptidase during translocation. 887. Lass, J.H. See Chakravarti, Magnuson. Lass, Jepsen, LaMantia, and Kalitsis, P. See Hudson, Fowler, Earle. Saffery. Kalitsis, Trowell, Hill. Carroll. Wreford. de Kretser. Cancilla. Howman. Hii. Cutts, Irvine, and Laun, T. See Lepple-Wienhues. Szabo, Laun. Kaba. Gulbins, and Lang. Choo. Lauritzen, 1. See Nobes, Lauritzen, Mattei, Paris, Hall, and Chardin. Kallio, M., Weinstein, J., Daum, J.R., Burke, DJ., and Gorbsky, G J, LaVallee. T.M„ Prudovsky, I.A., McMahon, G.A„ Hu, X,, and Madag, Mammalian p55CDC mediates association of the spindle check¬ T. Activation of the MAP kinase pathway by FGF-1 correlates point protein Mad2 with the cyclosome/anaphase-promoting with cell proliferation induction while activation of the Src path¬ complex, and is involved in regulating anaphase onset and late way correlates with migration. 1647. mitotic events. 1393. Lay, D. See Passreiter. Anton, Lay, Frank, Harter, Wieland. Gorgas, Kanai, Y, See Harada. Takei, Kanai. Tanaka, Nonaka, and Hirokawa. and Just. — Yonekawa, Harada, Okada, Funakoshi, Kanai, Takei. Terada. Lazzarini, R.A. See Elder, Friedrich. Bosco. Kang. Gourov, Tu, Lee, ! Noda, and Hirokawa. and Lazzarini. Kang, C. See Elder. Friedrich, Bosco, Kang, Gourov, Tu, Lee, and Lee, V.M.-Y. See Elder, Friedrich, Bosco, Kang, Gourov, Tu, Lee, \ Lazzarini. and Lazzarini. : Karmon, S. See Boldogh, Vojtov. Karmon, and Pon. — See Skovronsky, Dorns, and Lee. Karsten, V., Qi, H., Beckers, CJ.M., Reddy, A., Dubremetz, J.-E., Leinwand, L.A. See Sartorius, Lu. Acakpo-Satchivi, Jacobsen, Byrnes, I Webster, P„ and Joiner, K.A. The protozoan parasite Toxo- and Leinwand. 1 plasma gondii targets proteins to dense granules and the vacu- Lenardo, MJ. See Siegel. Martin. Zheng. Ng. Bertin. Cohen, and i olar space using both conserved and unusual mechanisms. 1323. Lenardo. ; Kaufman, T.C. See Li, Xu, Cecil, Turner, Megraw. and Kaufman. Lencer, W.I. See Wolf, Jobling. Wimer-Mackin, Ferguson-Maltzman. I Kaya, M. See Gonzalez, Kaya, Shi, Song, Testa. Penn, and Filmus. Madara, Holmes, and Lencer. J Kedersha, N. See Calautti, Cabodi, Stein, Hatzfeld. Kedersha, and Le-Niculescu, H. See Lin, Le-Niculescu, Hofmeister, McCaffery. Jin. i Dotto. Hennemann, McQuistan. De Vries, and Farquhar. f Kehlenbach, R.H., Dickmanns, A., and Gerace, L. Nucleocytoplas- Lepple-Wienhues, A., Szabo, 1., Laun, T., Kaba, N.K., Gulbins, E., I mic shuttling factors including Ran and CRMl mediate nuclear and Lang, F. The tyrosine kinase p56'‘* mediates activation of export of NFAT in vitro. 863. swelling-induced chloride channels in lymphocytes. 281. ! Keller, G.A, See Sakai. Koller, Ranged, Keller, and Subramani. Lesuffleur, T, See Huet. Hennebicq-Reig, de Bolos. Ulloa, Lesuffleur, Kemphues, K. See Matthews. Carter, Thierry-Mieg, and Kemphues. Barbat, Carriere. Kim. Real, Delannoy, and Zweibaum. ' Kielty, C.M. See Wess, Purslow, Sherratt. Ashworth. Shuttleworth. Leung, B. See Costa, Raich. Agbunag, Leung, Hardin, and Priess. and Kielty. Leung, K.K.H., Ng, L J., Ho, K.K.Y., Tam, P.P.L., and Cheah, K.S.E. Kilmartin, J.V, See Wigge, Jensen, Holmes. Soues, Mann, and Kilmartin. Different ds-regulatory DNA elements mediate developmental Kim, I. See Huet, Hennebicq-Reig, de Bolos. Ulloa. Lesuffleur, Barbat, stage- and tissue-specific expression of the human COL2AI Carriere. Kim, Real, Delannoy, and Zweibaum. gene in transgenic mice. 1291. Author Index 1701 Levin. S. See* Tuvia. Levin, Bitler, and Korenstein. Mayor, T. See Fry, Mayor, Meraldi, Stierhof, Tanaka, and Nigg. Li, k„ Xu, E.Y„ Cecil, J.K., Turner, F.R., Megraw, T.L., and Kaufman, Mbalaviele, G., Nishimura, R., Myoi, A., Niewolna, M., Reddy, S.V., T.C. Drosophila cenlrosomin protein is required for male meio- Chen, D., Feng, J., Roodman, I)., Mundy, G.R., and Yoneda, T. sis and assembly of the flagellar axoneme. 455. Cadherin-6 mediates the heterotypic interactions between the Lim, J. See Kim. Lim. Ota, Raja, Rogers, Rivnay, Avraham. and hemopoietic osteoclast cell lineage and stromal cells in a murine Avraham. model of osteoclast differentiation. 1467. Lim. K.C. See Wessely. Deiner, Lim, Mellitzer. Steinlein, and Beug. McCaffery, J.M. See Lin. Le-Niculescu, Hofmeister. McCaffery. Jin, Lin, K.-l, DiDonato. J.A., Hoffmann, A., Hardwick, J.M., and Katan, Hennemann. McQuistan, De Vries, and Farquhar. R.R. Suppression of steady-state, but not stimulus-induced McCartney, B.M. See LaJeunesse. McCartney, and Fehon. NF-kB activity inhibits alphavirus-induced apoptosis. 1479. McCiitcheon, K. See Hackam. Singaraja. Wellington, Metzler. Lin. P., Le-Niculescu, H., Hofmeister, R., McCaiTery, J.M., Jin, IV1., McCutcheon. Zhang. Kalchman, and Hayden. Hennemann. H., McQuistan, T., De Vries, L.. and Farquhar, McIntosh, D.P. See Oh. McIntosh, and Schnitzer. 1V1.<». The mammalian calcium-binding protein, nucleobindin McKeown-Longo, P.J. See Hocking, Sottile. and McKeown-Longo. (CALNUC). is a Golgi resident protein. 1515. McMahon, G.A. See LaVallee, Prudovsky, McMahon, Hu, and Maciag. Liu. Y. See Tan, Sagara, Liu, Maher, and Schubert. McNiven, M.A. See Henley, Krueger, Oswald, and McNiven. LoidI, J. See Jin. Trelles-Sticken. Scherthan. and Loidl. McQuistan, T. See Lin, Le-Niculescu. Hofmeister. McCaffery, Jin, Low, S.H„ Chapin, S J,, Wimmer, C., Whiteheart, S.W„ Kdmiives, L.Ci«, Hennemann, McQuistan. De Vries, and Farquhar. Moslov, K.E., and Weimbs, T. The SNARE machinery is involved Meda, P. See Chanson. Fanjul, Bosco, Nelles. Suter. Willecke. and Meda. in apical plasma membrane trafficking in MDCK cells. 1.50.1. Medici. N. See Abbondanza. Rossi. Roscigno, Gallo. Belsito, Piluso, Lu, B.I). See Sartorius. Lu, Acakpo-Satchivi, Jacobsen, Byrnes, and Medici. Nigro. Molinari. Moncharmont. and Puca. Leinwand. Megraw, T.L. See Li, Xu. Cecil. Turner. Megraw, and Kaufman. Lupashin, V.V. See VanRheenen. Cao. Lupashin. Barlowe. and Waters. Meier, T., Masciulli, F., Moore, C., Schoumacher, F., Eppenberger, U., Denzer, AJ., Jones, G., and Brenner, H.R. Agrin can medi¬ ate acetylcholine receptor gene expression in muscle by aggrega¬ tion of muscle-derived neuregulins. 715. M Mellitzer, G. See Wessely. Deiner, Lim, Mellitzer. Steinlein, and Beug. Machado. C., Sunkel, C.E., and Andrew, I)J. Human autoantibodies Meraldi, P. See Fry. Mayor, Meraldi. Stierhof, Tanaka, and Nigg. reveal titin as a chromosomal protein. ,121. Merati. B. See Guttinger. Sutti, Panigada, Porcellini, Merati. Mariani, Maciag, T. See LaVallee. Prudovsky, McMahon. Hu. and Maciag. Teesalu. Consalez. and Grassi. Madara, J.L. See Wolf. Jobling, Wimer-Mackin. Ferguson-Maltzman. Mertz, J.R. See Du. Stoops. Mertz. Stanley, and Dixon. Madara. Holmes, and Lencer. Metzler, M. See Hackam, Singaraja. Wellington. Metzler. McCutcheon, Maddox. P.S. See Desai. Maddox, Mitchison. and Salmon. Zhang, Kalchman, and Hayden. Maekawa, M. See Hirose. Ishizaki, Watanabe. Uehata. Kranenburg. Mier, J.W. See Potter. Tirnauer. Janssen, Croall. Hughes, Fiacco. Moolenaar, Matsumura. Maekawa, Bito, and Narumiya. Mier, Maki, and Herman. Magnuson, T. See Chakravarti. Magnuson. Lass. Jepsen, LaMantia. Mignatti, P. See Seghezzi, Patel. Ren, Gualandris. Pintucci. Robbins, and Carroll. Shapiro. Galloway. Rifkin, and Mignatti. Maher, P. .SVcTan. Sagara. Liu. Maher, and Schubert. Mikoshiba, K. See Yamamoto-Hino, Miyawaki, Segawa. Adachi. Maki, M. .S'cr Potter. Tirnauer. Janssen, Croall. Hughes. Fiacco. Mier. Yamashina, Fujimoto. Sugiyama, Furuichi. Hasegawa. and Maki. and Herman. Mikoshiba. Mandelkow, E. See Hoenger. Sack. Thormahlen. Marx. Muller. Milligan, R,A. See Jontes, Ostap. Pollard, and Milligan. Gross, and Mandelkow. Min, H.Y. See Nykja'r. Christensen, Vorum, Hager. Petersen, Rpigaard, Mann. M. See Wigge. Jensen. Holmes. Soues, Mann, and Kilmartin. Min. Vilhardt. Mpller, Kornfeld, and Gliemann. Mara/uela, M. See Yanez-M6, Alfranca. Cabanas. Marazuela. Tejedor. Mineo, C., Ying, Y.-S., Chapline, C., Jaken, S., and Anderson, Ursa. Ashman, de Landazuri. and Sanchez-Madrid. R.G.W. Targeting of protein kinase Ca to caveolae. 601. Margolis, R.L. See Andreassen, Lacroix. Villa-Moruzzi. and Margolis. Mirabito, P.M. See Wu, Osmani, and Mirabito. Mariani. M. See Guttinger. Sutti. Panigada. Porcellini. Merati, Mariani, Mitchison, T.J. See Desai, Maddox, Mitchison, and Salmon. Teesalu, Consalez. and Grassi. Miyawaki, A. See Yamamoto-Hino. Miyawaki. Segawa, Adachi. Marshall. W.F. See Fung. Marshall. Dernburg. Agard. and Sedat. Yamashina. Fujimoto, Sugiyama. Furuichi. Hasegawa, and Martin. D.A, See Siegel. Martin. Zheng. Ng. Bertin. Cohen, and Mikoshiba. Lenardo. Mohandas. N. See Walensky, Gascard. Fields. Blackshaw. Conboy. Martin. G.V. See Ihrke, Martin. Shanks. Schrader. Schroer. and Mohandas, and Snyder. Hubbard. Molinari, A.M. See Abbondanza, Rossi. Roscigno. Gallo. Belsito, Martin. O.C., Gunawardane, R.N., Iwamatsu, A., and Zheng, Y. Piluso, Medici, Nigro. Molinari. Moncharmont, and Puca. Xgripl()9: A y tubulin-associated protein with an essential role Moller, L.B. See Nykja;r. Christensen. Vorum, Hager. Petersen, in y tubulin ring complex (-yTuRC) assembly and centrosome Rpigaard. Min. Vilhardt. Mpller, Kornfeld. and Gliemann. function. 675. Moncharmont, B. See Abbondanza, Rossi, Roscigno. Gallo, Belsito, Martin-Bermudo. M.l)., Dunin-Borkowski, O.M., and Brown, N.H. Piluso. Medici, Nigro, Molinari, Moncharmont, and Puca. Modulation of integrin activity is vital for morphogenesis. 107.1. Moolenaar, W'.H. See Hirose, Ishizaki. Watanabe. Uehata. Kranenburg. Marx, A. See Hoenger, Sack. Thormahlen, Marx. Muller. Gross, and Moolenaar. Matsumura. Maekawa. Bito. and Narumiya. Mandelkow. Moore, C. See Meier. Masciulli, Moore. Schoumacher, Eppenberger. Masciulli. F. See Meier, Masciulli. Mrxire. Schoumacher. Eppcnberger. Denzer. Jones, and Brenner. Denzer. Jones, and Brenner. Moreau, A. See Dujardin, Wacker. Moreau. Schroer, Rickard, and Matsumura. F. See Hirose. Ishizaki. Watanabe. Uehata. Kranenburg. De Mey. Moolenaar. Matsumura, Maekawa, Bito. and Narumiya. Morgan, D,0. See Jin. Hardy, and Morgan. Matsuura, Y. See Fukata. Kimura. Oshiro. Saya. Matsuura, and Mosher, D.F. See Sakai, Zhang, Fassler, and Mosher. Kaibuchi. Mostov, K.E. See Low. Chapin. Wimmer. Whiteheart. Kbmuves, Mattel, M.-G. See Nobes. Lauritzen, Mattel, Paris. Hall, and Chardin. Mostov. and Weimbs. Matter, M,L., Zhang, Z., Nordstedt, C., and Ruoslahti, E. The aipi Moudjou, M. See Tassin. Celati, Moudjou, and Bornens. integrin mediates elimination of amyloid-p peptide and protects Mourton, T. See Brady-Kalnay. Mourton. Nixon, Pietz. Kinch, Chen, against apoptosis. 1019. Brackenbury. Rimm, Del Vecchio. and Tonks. Matthews, L.R., Carter, P., Thierrv-Mieg, I)., and Kemphues, K. Muller, J. See Hoenger. Sack. Thormahlen, Marx, Muller. Gross, and ZYG-9. a Caenorhahdiiis elegans protein required for microtu¬ Mandelkow. bule organization and function, is a component of meiotic and Mundy, G.R. See Mbalaviele, Nishimura. Myoi, Niewolna. Reddy, mitotic spindle poles. 1159. Chen. Feng. Roodman. Mundy. and Yoneda. Maxwell, S. See Futter. Gibson, Allchin. Maxwell. Ruddock. Odorizzi, Murphy, K. See Campbell, Bowman, Murphy. Youngman, Siani. Domingo, Trowbridge, and Hopkins. Thompson. Wu. Zlotnik. and Butcher. May, T„ and Soil, J. Positive charges determine the topology and Murphy, S.M., Urban!, L., and Stearns, T. The mammalian y-tubulin functionality of the transmembrane domain in the chloroplastic complex contains homologues c^f the yeast spindle pole body outer envelope protein Toc.l4. 895. components Spc97p and Spc98p. 663. The Journal of Cell Biology. Volume 141. 1998 1702 Murray, A.W. See Gorbsky, Chen, and Murray. Ota, S. See Kim, Lim, Ota, Raja, Rogers, Rivnay, Avraham. and — See Waters. Chen. Murray, and Salmon. Avraham. Muslimov, i.A., Banker, G., Brusius, J., and Tiedge, H. Activity- dependent regulation of dendritic BCl RNA in hippocampal neurons in culture. 1601. Myoi, A. See Mbalaviele. Nishimura. Myoi. Niewolna. Reddy. Chen. P Feng. Roodman. Mundy. and Yoneda. Pampori, N. See Hato, Pampori, and Shattil. Panigada, M. See Guttinger, Sutti, Panigada, Porcellini, Merati. Mariani. Teesalu, Consalez, and Grassi. N Paris, S. See Nobes, Lauritzen, Mattei, Paris. Hall, and Chardin. Passreiter, M., Anton, M., Lay, D., Frank, R., Harter, C., Wieland, Nagasaki, T. See Cook. Nagasaki, and Gundersen. F.T., Gorgas, K., and Just, W.W. Peroxisome biogenesis: In¬ Naora, Hi. See Naora. Takai. Adachi. and Naora. volvement of ARF and coatomer. 373. Naora, Ho., Takai, I., Adachi, M., and Naora, Hi. Altered cellular re¬ Patel, S. See Seghezzi, Patel. Ren, Gualandris, Pintucci, Robbins, sponses by varying expression of a ribosomal protein gene: Shapiro, Galloway, Rifkin, and Mignatti. Sequential coordination of enhancement and suppression of ri¬ Pazour, GJ., Wilkerson, C.G., and Witman, G.B. A dynein light bosomal protein S.^a gene expression induces apoptosis. 741. chain is essential for the retrograde particle movement of in- Narumiya, S. See Hirose. Ishizaki. Watanabe. Uehata. Kranenburg. traflagellar transport (IFT). 979. Moolenaar. Matsumura. Maekawa. Bito. and Narumiya. Pelletier, S.L. See Oiao, Pelletier. Hoffman, Hacker. Armstrong, and Nelles, E. See Chanson. Banjul. Bosco. Nelles. Suter. Willecke. and White. Meda. Peng, H.B. See Dai and Peng. Ng. LJ. See Leung. Ng. Ho. Tam. and Cheah. Penn, L,Z. See Gonzalez, Kaya, Shi. Song, Testa. Penn, and Filmus. Ng, S.Y. See Siegel. Martin. Zheng. Ng. Bertin. Cohen, and Lenardo. Pepperkok, R. See Shima, Cabrera-Poch, Pepperkok, and Warren. Nicosia, R.F. See Scatena. Almeida. Chaisson. Fausto. Nicosia, and Peracino, B., Borleis, J., Jin, T., Westphal, M., Schwartz, J.-M.. Wu, Giachelli. L., Braccu, E., Gerisch, G., Devreotes, P., and Bozzaro, S. G Nielsen, O, See Petersen, Nielsen, Egel, and Hagan. protein (3 subunit-null mutants are impaired in phagocytosis and Niessen, C.M. See Yap, Niessen, and Gumbiner. chemotaxis due to inappropriate regulation of the actin cytoskel- Niewolna, M. See Mbalaviele, Nishimura, Myoi, Niewolna, Reddy. eton. 1529. Chen, Feng, Roodman, Mundy. and Yoneda. Perez, D., and White, E. ElB 19K inhibits Fas-mediated apoptosis Nigg, E.A. See Fry. Mayor, Meraldi, Stierhof, Tanaka, and Nigg. through FADD-dependent sequestration of FLICE. 12.55. Nigro, V. See Abbondanza, Rossi, Roscigno, Gallo, Belsito, Piluso, Petersen, C.M. See Nykjaer. Christensen, Vorum, Hager, Petersen, Medici, Nigro, Molinari. Moncharmont, and Puca. Rpigaard. Min. Vilhardt. Mpller. Kornfeld, and Gliemann. Nishimura, R. See Mbalaviele, Nishimura. Myoi, Niewolna, Reddy, Petersen, J., Nielsen, 0„ Egel, R., and Hagan, I.M. FH3, a domain Chen, Feng, Roodman, Mundy, and Yoneda. found in formins. targets the fission yeast formin Fusl to the Nixon, J.P. See Brady-Kalnay, Mourton, Nixon, Pietz. Kinch, Chen, projection tip during conjugation. 1217. Brackenbury, Rimm, Del Vecchio, and Tonks. Pietz, G.E. See Brady-Kalnay, Mourton. Nixon, Pietz, Kinch, Chen, Nobes, C.D., Lauritzen, I., Mattel, M.-G., Paris, S., Hall, A., and Brackenbury. Rimm, Del Vecchio, and Tonks. Chardin, P. A new member of the Rho family, Rndl. promotes Piluso, G. See Abbondanza, Rossi, Roscigno, Gallo. Belsito. Piluso. disassembly of actin filament structures and loss of cell adhesion. Medici, Nigro, Molinari, Moncharmont, and Puca. 187. Pinet, V. See Faigle. Raposo. Tenza. Pinet, Vogt. Kropshofer, Fischer, Noda, T. See Saitou, Fujimoto. Doi. Itoh. Fujimoto, Furuse, Takano. de Saint-Basile, and Amigorena. Noda, and Tsukita. Pintucci, G. See Seghezzi, Patel, Ren, Gualandris, Pintucci, Robbins. — See Yonekawa, Harada, Okada, Funakoshi, Kanai. Takei, Terada. Shapiro, Galloway. Rifkin. and Mignatti. Noda. and Hirokawa. Pollard, T.D. See Jontes. Ostap. Pollard, and Milligan. Nonaka, S. See Harada. Takei, Kanai, Tanaka. Nonaka. and Hirokawa. Pon, L.A. See Anderson. Boldogh, Evangelista. Boone, Greene, and Nordstedt, C. See Matter. Zhang. Nordstedt, and Ruoslahti. Pon. Nuoffer, C. See Aridor, Weissman, Bannykh, Nuoffer, and Batch. — See Boldogh. Vojtov, Karmon, and Pon. Nvkjaer, A., Christensen, E.I., Vorum, H., Hager, H., Petersen, C.M., Porcellini, S. See Guttinger, Sutti, Panigada, Porcellini, Merati, Mariani. Roigaard, H., Min, H.Y., Vilhardt, E., Moller, L.B., Kornfeld, S., Teesalu, Consalez. and Grassi. and (iliemann, J. Mannose 6-phosphate/insulin-like growth Potter, D.A., Timauer, J.S., Janssen. R., Croall, D.E>, Hughes C.N., Fi- factor-Il receptor targets the urokinase receptor to lysosomes acco, K.A., Mier, J.W., Maki, M., and Herman, I.M. Calpain regu¬ via a novel binding interaction. 815. lates actin remodeling during cell spreading. 647. Correction. 1289. Priess, J.R, See Costa. Raich, Agbunag, Leung. Hardin, and Priess. Prudovsky, I.A. See LaVallee, Prudovsky, McMahon. Hu. and Maciag. Puca, G.A. See Abbondanza, Rossi, Roscigno, Gallo. Belsito. Piluso. Medici, Nigro, Molinari, Moncharmont, and Puca. O Puceat, M., Ruche. S., and Vassort, G. Src family tyrosine kinase reg¬ ulates intracellular pH in cardiomyocytes. 1637. Odorizzi, G. See Futter, Gibson. Allchin. Maxwell. Ruddock. Odoriz.zi, Purslow, P.P. See Wess. Purslow. Sherratt. Ashworth. Shuttleworth, Domingo, Trowbridge, and Hopkins. and Kielty. O’Grady, P., Thai, T.C., and Saito, H. The laminin-nidogen complex Pyrowolakis, G. See Hauser, Bardroff. Pyrowolakis, and Jentsch. is a ligand for a specific splice isoform of the transmembrane protein tyrosine phosphatase LAR. 1675. Oh, P., McIntosh, D.P., and Schnitzer, J.E. Dynamin at the neck of ca- veolae mediates their budding to form transport vesicles by GTP- Q driven fission from the plasma membrane of endothelium. 101. Okada, Y. See Yonekawa, Harada. Okada. Funakoshi, Kanai, Takei, Terada. Noda, and Hirokawa. Qi, H. See Karsten, Qi, Beckers, Reddy, Dubremetz, Webster, and Oorschot, V. See Hay, Klumperman, Oorschot, Steegmaier, Kuo. and Joiner. Scheller. Qiao, H., Pelletier, S.L., Hoffman, L., Hacker, J., Armstrong, R.T., Orlandi, P.A., and Fishman, P.H. Filipin-dependent inhibition of and White, J.M. Specific single or double proline substitutions in cholera toxin: Evidence for toxin internalization and activation the "spring-loaded" coiled-coil region of the influenza hemag¬ through caveolae-like domains. 905. glutinin impair or abolish membrane fusion activity. 1335. Ortuno-Sahagun, D. See Torroja, Ortuno-Sahagiin, Ferriis. Hiimmerle, and Barbas. Oshiro, N. See Fukata. Kimura, Oshiro, Saya. Matsuura, and Kaibuchi. Osmani, S.A. See Wu, Osmani, and Mirabito. R Ostap, E.M. See Jontes, Ostap, Pollard, and Milligan. Oswald, BJ. See Henley, Krueger. Oswald, and McNiven. Raich, W, See Costa. Raich, Agbunag, Leung. Hardin, and Priess. Author Index 1703 Raja, S. See Kim. Lim. Ota. Raja. Rogers. Rivnay. Avrahani. and Sakai, T., Zhang, Q., Fassler, R., and IMusher, D.F. Modulation of Avraham. pi A integrin functions by tyrosine residues in the pi cytoplas¬ Rangell. L.K. See Sakai. Roller. Rangell. Keller, and Subramani. mic domain. 527. Kapoport. T.A. See Kalies. Rapoport. and Hartmann. Sakai, Y., Roller, A., Rangell, L.K., Keller, G.A., and Subramani, S, Raposo, G. See Faigle. Raposo. Tenza. Pinet. Vogt. Kropshofer. Peroxisome degradation by microautophagy in Pichia pastoris: Fischer, de Saint-Basile. and Amigorena. Identification of specific steps and morpholoeical intermediates. Ratan, R.R. See Lin. DiDonato. Hoffmann. Hardwick, and Ratan. 625. Real, F.X. See Huet. Hennebicq-Reig. de Bolos. Ulloa, Lesuffleur. Salmon, E.D. See Desai. Maddox, Mitchison. and Salmon. Barbat. Carriere. Kim. Real. Delannoy. and Zweibaum. — See Waters. Chen. Murray, and Salmon. Reddy, A, See Karsten. Qi. Beckers. Reddy. Dubremetz. Webster, Salomon, D. See Simeha. Shtutman, Salomon, Zhurinsky. Sadot. and Joiner. Geiger, and Ben-Ze'ev. Reddy, S.V. See .Vlbalaviele. Nishimura. Myoi. Niewolna. Reddy, Sanchez-Madrid, F. See Yanez-M6, Alfranca, Cabanas, Marazuela. C'hen. Feng. Roodman. Mundy, and Yoneda. Tejedor. Ursa, Ashman, de Landazuri. and Sanchez-Madrid. Reipert, S. See Rezniczek. de Pereda, Reipert. and Wiche. Sartorius, C.A., Lu, B.D., Acakpo-Satchivi, L., Jacobsen, R.P., Byrnes, Ren, CJ. See Seghezzi, Patel. Ren. Gualandris, Pintucci. Robbins. W,C., and Leinwand, L.A. Myosin heavy chains 11a and lid are Shapiro. Galloway. RilLin. and Mignatti. functionally distinct in the mouse. 943. Rezniczek, G.A., de Pereda, J.M., Reipert, S., and Wiche, G. Linking Savelyeva, L. See Claas. Seiter, Claas, Savelyeva, Schwab, and Zbller. integrin ah(J4-based cell adhesion to the intermediate filament Saya, H. See Fukata. Kimura, Oshiro. Saya, Matsuura, and Kaibuchi. cytoskeleton: Direct interaction between the P4 subunit and Scatena, M., Almeida, M., Chaisson, M.L., Fausto, N., Nicosia, R.F., plectin at multiple molecular sites. 209. and Giachelli, C.M. NF-kB mediates avp3 integrin-induced en¬ Ribbeck, K. See Ferrari, Ribbeck. Hagler, and Spitzer. dothelial cell survival. 1083. Rickard, J.E. See Dujardin. Wacker, Moreau, Schroer. Rickard, and Scheiffele, P. See Harder. Scheiffele, Verkade, and Simons. De Mey. Scheller, R.H. See Hay. Klumperman. Oorschot, Steegmaier. Kuo, Ridley, AJ. See Allen, Zicha. Ridley, and Jones. and Scheller. Rieznian, H. See Hicke, Zanolari. and Riezman. Scherthan, H. See Jin. Trelles-Sticken, Scherthan, and Loidl. Rifkin. D.B. See Seghezzi, Patel. Ren. Gualandris, Pintucci, Robbins. Schnitzer, J.E. See Oh. McIntosh, and Schnitzer. Shapiro. Galloway. Rifkin. and Mignatti. Schoumacher, F. See Meier. Masciulli, Moore, Schoumacher. Eppen- Rimm, D.L. See Brady-Kalnay. Mourton. Nixon, Pietz, Kinch. Chen. berger. Denzer. Jones, and Brenner. Brackenbury. Rimm, Del Vecchio. and Tonks. Schrader, M. See Ihrke. Martin, Shanks, Schrader, Schroer. and Rivnay, B. See Kim. Lim, Ota. Raja. Rogers, Rivnay, Avraham. and Hubbard. Avraham. Schroer, T.A. See Dujardin, Wacker. Moreau. Schroer. Rickard, and Robbins. E.S. See Seghezzi. Patel, Ren. Gualandris. Pintucci. Robbins. De Mey. Shapiro. Galloway, Rilkin. and Mignatti. — See Ihrke. Martin. Shanks. Schrader. Schroer. and Hubbard. Roche, S. See Puceat. Roche, and Vassort. Schubert, D. See Tan. Sagara, Liu, Maher, and Schubert. Rogers. R. See Kim. Lim, Ota. Raja. Rogers. Rivnay. Avraham. and Schwab, IM. See Claas, Seiter, Claas, Savelyeva. Schwab, and Zoller. Avraham. Schwartz, J.-IM. See Peracino, Borleis, Jin, Westphal, Schwartz. Wu. Rohovsky, S.A. See Hirschi, Rohovsky, and D'Amore. Bracco. Gerisch, Devreotes, and Bozzaro. Roigaard, H. See Nykja'r, Christensen. Vorum. Hager. Petersen, Sedat, J.W. See Fung, Marshall. Dernburg. Agard, and Sedat. Rpigaard. Min. Vilhardt. Mpller, Kornfeld. and Gliemann. Segawa, A. See Yamamoto-Hino. Miyawaki. Segawa, Adachi, Roodman, D. See Mbalaviele. Nishimura, Myoi, Niewolna, Reddy, Yamashina, Fujimoto. Sugiyama. Furuichi. Hasegawa. and Chen. Feng. Roodman, Mundy. and Yoneda. Mikoshiba. Roscigno, A. See Abbondanza. Rossi. Roscigno. Gallo. Belsito, Piluso, Seghezzi, G., Patel, S., Ren, CJ., Gualandris, A., Pintucci, G., Robbins, Medici, Nigro. Molinari. Moncharmont, and Puca. E.S., Shapiro, R.L., Galloway, A,C., Rifkin, D.B., and Mignatti, Rose, M.D. See Brizzio. Gammie, and Rose. P. Fibroblast growth factor-2 (FGF-2) induces vascular endothe¬ Rosenbaum. J.L. See Cole, Diener. Himelblau. Beech. Fuster. and lial growth factor (VEGF) expression in the endothelial cells of Rosenbaum. forming capillaries: An autocrine mechanism contributing to an¬ Rossi, V. See Abbondanza. Rossi. Roscigno. Gallo. Belsito, Piluso, giogenesis. 1659. Medici. Nigro. Molinari. Moncharmont. and Puca. Seiter, S. See Claas. Seiler. Claas, Savelyeva. Schwab, and Zoller. R»»y, L.M., and Barkan, A. A SecY homologue is required for the Shah, S., Tngendreich, S., and Forbes, D. Major binding sites for the elaboration of the chloroplast thylakoid membrane and for nor¬ nuclear import receptor are the internal nucleoporin Nupl53 mal chloroplast gene expression. 385. and the adjacent nuclear filament protein Tpr. 31. Roy, S., and Vijay Raghavan, K. Patterning muscles using organizers: Shanks, M.R. See Ihrke. Martin, Shanks, Schrader. Schroer. and Larval muscle templates and adult myoblasts actively interact to Hubbard. pattern the dorsal longitudinal flieht muscles of Drosophila. Shapiro, R.L. See Seghezzi, Patel, Ren. Gualandris. Pintucci, Robbins, 1135. Shapiro. Galloway. Rifkin. and Mignatti. Rubinfcld, B. See Wong, Rubinfeld. and Gordon. Shattil, S.J. See Hato, Pampori. and Shattil. RuddcK'k, LJ. See Futter. Gibson. Allchin, Maxwell, Ruddock, Odorizzi. Shanb, A. See Zhong. Chrzanowska-Wodnicka. Brown, Shaub. Belkin, Domingo. Trowbridge, and Hopkins. and Burridge. Rudiger, A.-H. See Weiss. Kroemker. Rudiger. Jockusch. and Rudiger. Sherratt, M.J. See Wess, Purslow. Sherralt, Ashworth, Shuttleworth, Rudiger, IM. See Weiss. Kroemker. RUdiger. Jockusch, and Rudiger. and Kielty. Ruoslahti, E. See Matter. Zhang. Nordstedt, and Ruoslahti. Shi, W. See Gonzalez. Kaya, Shi. Song. Testa. Penn, and Filmus. Shima, D.T., Cabrera-Poch, N., Pepperkok, R., and Warren, G. An ordered inheritance strategy for the Golgi apparatus: Visualiza¬ tion of mitotic disassembly reveals a role for the mitotic spindle. 955. Correction. 1477. S Shtutman, M. See Simeha. Shtutman, Salomon, Zhurinsky. Sadot, Geiger, and Ben-Ze'ev. Sack, S. See Hoenger, Sack, Thormahlen. Marx, Muller. Gross, and Shuttleworth, C.A. See Wess, Purslow, Sherratt, Ashworth, Shuttle- Mandelkow. worth. and Kielty. Sad«tl. E. See Simeha, Shtutman, Salomon. Zhurinsky. Sadot, Geiger, Siani, M.A. See Campbell, Bowman, Murphy. Youngman. Siani, and Ben-Ze'ev. Thompson. Wu, Zlotnik, and Butcher. Saffery, R. See Hudson. Fowler. Earle, Saffery. Kalitsis. Trowell. Hill. Siegel, R.M., Martin, I).A., Zheng, L., Ng, S.Y., Bertin, J., Cohen, J., Wreford, de Kretser. Cancilla. Howman, Hii, Cutts. Irvine, and and Lenardo, M.J. Death-effector filaments: Novel cytoplasmic Choo. structures that recruit caspases and trigger apoptosis. 1243. Sagara, Y. See Tan, Sagara. Liu. Maher, and Schubert. Simeha, I., Shtntnian, M., Salomon, D., Zhurinsky, J„ Sadot, E., Geiger, Saito. H. See O'Grady. Thai, and Saito. B., and Ben-Ze’ev, A. Differential nuclear translocation and Saitou, M.. Fujimoto, K., I)oi, Y., Itoh, IVf., Fujimoto, T., Furuse, M.. transactivation potential of p-catenin and plakoglobin. 1433. Takano, H.. Noda, T., and Tsukita, Sh. Occludin-deficient em¬ Simons, K. See Harder, Scheiffele, Verkade, and Simons. bryonic stem cells can differentiate into polarized epithelial cells Singaraja, R. See Hackam. Singaraja, Wellington. Metzler, McCutcheon. bearing tight junctions. 397. Zhang. Kalchman, and Hayden. The Journal of Cell Biology. Volume 141, 1998 1704 Skovronsky, D.IM., Dorns, R.W., and Lee, V.M.-Y. Detection of a Ting-Beall, H.P. See Gerald, Dai. Ting-Beall, and De Lozanne. novel intraneuronal pool of insoluble amyloid p protein that ac¬ Tirnauer, J.S. See Potter. Tirnauer, Janssen. Croall, Hughes. Fiacco, cumulates with time in culture. 1031. Mier. Maki, and Herman. Smith, E.A., and Fuchs, E. Defining the interactions between inter¬ Tonks, N.K. See Brady-Kalnay, Mourton. Nixon, Pietz. Kinch, Chen. mediate filaments and desmosomes. 1229. Brackenbury, Rimm, Del Vecchio. and Tonks. Snyder, S.H. See Walensky, Gascard, Fields, Blackshaw. Conboy, Torroja, L„ Ortuno-Sahagun, D„ Ferrus A„ Hammerle. B„ and Barbas, Mohandas, and Snyder. J.A. scully, an essential gene of Drosophila, is homologous to Soil, J. See May and Soil. mammalian mitochondrial type II i,-3-hydroxyacyl-CoA dehy- Sommarin, Y. See Wendel. Sommarin, and Heinegard. drogenase/amyloid-p peptide-binding protein. 1(X)9. Song, H. See Gonzalez. Kaya, Shi, Song, Testa, Penn, and Filmus. Trelles-Sticken, E. See Jin, Trelles-Sticken, Scherthan, and Loidl. Sottile, J. See Hocking. Sottile, and McKeown-Longo. Trowbridge, I.S. See Futter, Gibson. Allchin, Maxwell. Ruddock. Soucs, S. See Wigge. Jensen, Holmes, Soues. Mann, and Kilmartin. Odorizzi, Domingo. Trowbridge, and Hopkins. Sparks, C.A. See Dictenberg, Zimmerman, Sparks. Young, Vidair. Trowell, H. .See Hudson, Fowler. Earle, Saffery. Kalitsis. Trowell, Zheng. Carrington, Fay. and Doxsey. Hill. Wreford. de Kretser. Cancilla, Howman. Hii, Cutts. Irvine, Spit/er, N.C. See Ferrari. Ribbeck. Hagler, and Spitzer. and Choo. Stack, M.S. See Goldfinger. Stack, and Jones. Truong, T. See Huttenlocher, Lakonishok. Kinder. Wu, Truong. Stanley, C.M. See Du, Stoops. Mertz, Stanley, and Dixon. Knudsen. and Horwitz. Stearns, T. See Murphy, Urbani, and Stearns. Tsukita, S. See Furuse, Fujita. Hiiragi, Fujimoto, and Tsukita. Steegmaier, M. See Hay. Klumperman, Oorschot. Steegmaier, Kuo. Tsukita, Sh. See Saitou, Fujimoto. Doi. Itoh, Fujimoto. Furuse, and Scheller. Takano. Noda. and Tsukita. Stein, P.L. See Calautti. Cabodi, Stein, Hatzfeld, Kedersha. and Tu, P.-H. See Elder. Friedrich, Bosco, Kang. Gourov, Tu, Lee, and Dotto. Lazzarini. Steiner, D.F. See Bass. Chiu, Argon, and Steiner. Tugendrcich, S. See Shah, Tugendreich. and Forbes. Steinlein, P. See Wessely. Deiner, Lim, Mellitzer, Steinlein. and Turner, F.R. See Li, Xu. Cecil, Turner. Megraw, and Kaufman. Beug. Tuvia, S., Levin, S., Bitler, A., and Korenstein, R. Mechanical fluctua¬ Stevenson, B.R. See Haskins, Gu. Wittchen, Hibbard, and Stevenson. tions of the membrane-skeleton are dependent on F-actin ATPase Stierhof, Y.-D. See Fry, Mayor. Meraldi, Stierhof. Tanaka, and Nigg. in human erythrocytes. 1551. Stoops, J.D. See Du, Stoops, Mertz, Stanley, and Dixon. Strutt, H. See Buchenau. Hodgson, Strutt, and Arndt-Jovin. Suhramani, S. See Sakai, Koller. Rangell, Keller, and Subramani. Sugiyama, T. See Yamamoto-Hino. Miyawaki, Segawa, Adachi, U Yamashina. Fujimoto. Sugiyama, Furuichi, Hasegawa. and Mikoshiba. Sullivan, W. See de Saint Phalle and Sullivan. Uehata, M. See Hirose. Ishizaki, Watanabe, Uehata. Kranenburg. Sunkel, C.E. See Machado, Sunkel, and Andrew. Moolenaar, Matsumura, Maekawa, Bito, and Narumiya. Suter, D.M., Errante, L.D., Belotserkovsky, V., and Forscher, P. The Ulloa, F. See Huet. Hennebicq-Reig. de Bolos, Ulloa. Lesuffleur. Ig superfamily cell adhesion molecule, apCAM. mediates Barbat. Carriere, Kim, Real, Delannoy. and Zweibaum. growth cone steering by substrate-cytoskeletal coupling. 227. Urbani, L. See Murphy, Urbani. and Stearns. Suter, S. See Chanson, Fanjul. Bosco. Nelles. Suter. Willecke. and Meda. Ursa, IM.A. See Yanez-M6. Alfranca. Cabanas. Marazuela, Tejedor. Sutti, F. See Guttinger, Sutti, Panigada. Porcellini, Merati. Mariani, Ursa, Ashman, de Landazuri, and Sanchez-Madrid. Teesalu. Consalez. and Grassi. Szahd, I. See Lepple-Wienhues, Szabo. Laun, Kaba, Gulbins. and Lang. V VanRheenen, S.M., Cao, X., Lupashin, V.V„ Barlowe, C., and Waters, T \LG. Sec35p, a novel peripheral membrane protein, is required for ER to Golgi vesicle docking. 1107. Vassort, G. See Puceat, Roche, and Vassort. Takai, I. See Naora. Takai. Adachi, and Naora. Verkade, P. See Harder, Scheiffele. Verkade, and Simons. Takano, H. See Saitou. Fujimoto. Doi, Itoh, Fujimoto, Furuse, Takano, Vidair, C. See Dictenberg. Zimmerman, Sparks. Young. Vidair. Noda, and Tsukita. Zheng. Carrington, Fay. and Doxsey. Takei, Y. See Harada, Takei. Kanai, Tanaka, Nonaka. and Hirokawa. VijayRaghavan, K. See Roy and VijayRaghavan. — See Yonekawa, Harada, Okada. Funakoshi. Kanai. Takei, Terada, Vilhardt, F. See Nykja-r, Christensen. Vorum. Hager. Petersen, Noda, and Hirokawa. Roigaard. Min, Vilhardt, Mpller. Kornfeld. and Gliemann. Tam, P.P.L. See Leung, Ng. Ho, Tam, and Cheah. Villa-Moruzzi, E. See Andreassen. Lacroix. Villa-Moru/j'i. and Margolis. Tan, S., Sagara, Y., Liu, Y., Maher, P., and Schubert, I). The regula¬ Vugt, A.B. See Faigle. Raptrso, Tenza, Pinet. Vogt. Kropshofer. Fischer, tion of reactive oxygen species production during programmed de Saint-Basile, and Amigorena. cell death. 1423. Vojtov, N. See Boldogh, Vojtov, Karmon, and Pon. Tanaka, K. See Fry, Mayor, Meraldi. Stierhof. Tanaka, and Nigg. Vorum, H. See Nykja;r. Christensen. Vorum, Hager. Petersen, Tanaka, Y. See Harada. Takei, Kanai, Tanaka, Nonaka, and Hirokawa. Rpigaard, Min. Vilhardt. Mpller, Kornfeld, and Gliemann. Tassin, A.-M., Celati, C., Moudjou, IVI., and Bornens, IVl. Character¬ ization of the human homologue of the yeast Spc98p and its as¬ sociation with y-tubulin. 689. Teesalu, T. See Guttinger. Sutti, Panigada, Porcellini, Merati, Mariani, Teesalu, Consalez. and Grassi. W Tejedor, R. See Yanez-Mo. Alfranca, Cabanas. Marazuela, Tejedor. Ursa, Ashman, de Landazuri, and Sanchez-Madrid. Wacker, U.I. See Dujardin, Wacker. Moreau. Schroer, Rickard, and Tenza, D. See Faigle, Raposo, Tenza, Pinet, Vogt, Kropshofer, De Mey. Fischer, de Saint-Basile, and Amigorena. Walensky, L.D., Gascard, P., Fields, M.E., Blackshaw, S., Cunbov, Terada, S. See Yonekawa, Harada. Okada, Funakoshi, Kanai, Takei, J.G., !Vl«»handas, N., and Snyder, S.H. The 13-kD FK5()6 binding Terada, Noda. and Hirokawa. protein, FKBP13. interacts with a novel homologue of the eryth¬ Testa, J.R. See Gonzalez, Kaya. Shi, Song. Testa, Penn, and Filmus. rocyte membrane cytoskeletal protein 4.1. 143. Thai, T.C. See O'Grady, Thai, and Saito. Warren, G. See Shima, Cabrera-Poch. Pepperkok, and Warren. Thierry-Mieg, I). See Matthews, Carter, Thierry-Mieg. and Kemphues. Watanabe, N. See Hirose, Ishizaki. Watanabe, Uehata. Kranenburg. Thompson, D.A. See Campbell, Bowman. Murphy, Youngman, Siani. Moolenaar, Matsumura. Maekawa, Bito. and Narumiya. Thompson, Wu, Zlotnik, and Butcher. Waters, J.C., Chen, R.-H., Murray, A.W., and Salmon, E.D. Localiza¬ Thormahlen, IM. See Hoenger. Sack. Thormahlen. Marx. Muller, tion of Mad2 to kinetochores depends on microtubule attach¬ Gross, and Mandelkow. ment, not tension. 1181. Tiedge, H. See Muslimov, Banker. Brosius. and Tiedge. Waters, M.G. See VanRheenen. Cao, Lupashin. Barlowe. and Waters. Author Index 1705 Webster, P, See Karsten. Qi. Beckers, Reddy. Dubremetz, Webster, X and Joiner. Weimbs, T. See Low, Chapin. Wimmer, Whiteheart, Komiives. Mostov, Xu, E.Y. See Li, Xu, Cecil. Turner, Megraw, and Kaufman. and Weimbs. Weinstein, D.E. See Gondre, Burrola, and Weinstein. Weinstein, J. See Kallio, Weinstein, Daum, Burke, and Gorbsky. Weiss, E.E„ Kroemker, M., Rudiger, A.>H., Jockusch, B.M., and Rudiger, M. Vinculin is part of the cadherin-catenin junctional Y complex; Complex formation between a-catenin and vinculin. 755. Weissman, J. See Aridor. Weissman, Bannykh. Nuoffer, and Balch. Yamamoto-Hino, M,, Miyawaki, A,, Segawa, A., Adachi, E,, Yamashina, Wellington, C.L. See Hackam, Singaraja, Wellington. Metzler, S., Fujimoto, T., Sugiyama, T., Furuichi, T., Hasegawa, M., and McCutcheon. Zhang, Kalchman, and Hayden. Mikoshiba, K. Apical vesicles bearing inositol 1,4.5-trisphos- Wendel, M., Sommarin, Y., and Heinegard, D. Bone matrix proteins; phate receptors in the Ca’^ initiation site of ductal epithelium of Isolation and characterization of a novel cell-binding keratan submandibular gland. 135. sulfate proteoglycan (osteoadherin) from bovine bone. 839. Yamashina, S. See Yamamoto-Hino. Miyawaki, Segawa, Adachi. Wendland, B., and Emr, S.D. Pan Ip, yeast epslS, functions as a mul¬ Yamashina. Fujimoto, Sugiyama, Furuichi. Hasegawa, and tivalent adaptor that coordinates protein-protein interactions Mikoshiba. essential for endocytosis. 71. Yanez-M6, M., Alfranca, A., Cabanas, C., Marazuela, M., Tejedor, Wess, TJ., Purslow, P.P., Sherratt, MJ., Ashworth, J., Shuttleworth, R., Ursa, M.A., Ashman, L.K., de Landazuri, M.O., and C.A., and Kielty, C.M. Calcium determines the supramolecular Sanchez-Madrid, F. Regulation of endothelial cell motility by organization of fibrillin-rich microfibrils. 829. complexes of tetraspan molecules CD81/TAPA-1 and CD151/ Wessely, O., Deiner, E.-M., Lim, K.C., Mellitzer, G., Steinlein, P., PETA-3 with a3pi integrin localized at endothelial lateral junc¬ and Beug, H. Mammalian granulocyte-macrophage colony- tions. 791. stimulating factor receptor expressed in primary avian hemato¬ Yap, A.S., Niessen, C.M., and Gumbiner, B.M. The juxtamembrane poietic progenitors; Lineage-specific regulation of proliferation region of the cadherin cytoplasmic tail supports lateral cluster¬ and differentiation. 1041. ing. adhesive strengthening, and interaction with plZtF'". 779. Westphal, M. See Peracino, Borleis. Jin, Westphal. Schwartz. Wu. Yin, H. See Chen, Yin. and Huffaker. Bracco, Gerisch, Devreotes, and Bozzaro. Y'ing, Y.-S. See Mineo, Ying, Chapline, Jaken. and Anderson. White, E. See Perez and White. Yoneda, T. See Mbalaviele, Nishimura, Myoi, Niewolna, Reddy, White, J.M. See Oiao. Pelletier, Hoffman, Hacker. Armstrong, and Chen, Feng. Roodman, Mundy, and Yoneda. White. Yonekawa, Y., Harada, A., Okada, Y., Funakoshi, T., Kanai, Y., Whiteheart, S.W. See Low, Chapin, Wimmer, Whiteheart, Komiives. Takei, Y., Terada, S., Noda, T., and Hirokawa, N. Defect in syn¬ Mostov. and Weimbs. aptic vesicle precursor transport and neuronal cell death in Wiche, G. See Rezniczek, de Pereda. Reipert. and Wiche. KIFl A motor protein-deficient mice. 431. Wieland, F,T. See Passreiter, Anton, Lay. Frank, Harter, Wieland, Young, A. See Dictenberg, Zimmerman, Sparks, Young, Vidair. Gorgas, and Just. Zheng, Carrington. Fay, and Doxsey. Wigge, P.A., Jensen, O.N., Holmes, S., Soues, S., Mann, M., and Youngman, K.R. See Campbell, Bowman, Murphy, Youngman. Kilmartin, J.V. Analysis of the Saccharomyces spindle pole by Siani, Thompson, Wu. Zlotnik. and Butcher. matrix-assisted laser desorption/ionization (MALDI) mass spec¬ trometry. 967. Wilkerson, C.G. See Pazour, Wilkerson, and Witman. Willecke, K. See Chanson, Fanjul. Bosco, Nelles, Suter, Willecke. and Meda. Z Wimer-Mackin, S. See Wolf. Jobling, Wimer-Mackin, Ferguson- Maltzman, Madara, Holmes, and Lencer. Zanolari, B. See Hicke, Zanolari, and Riezman. Wimmer, C. See Low. Chapin, Wimmer. Whiteheart, Komiives. Mostov. Zhang, Q. See Sakai. Zhang. Fassler, and Mosher. and Weimbs. Zhang, T. See Hackam, Singaraja, Wellington, Metzler, McCutcheon, Witman, G.B. See Pazour. Wilkerson. and Witman. Zhang, Kalchman, and Hayden. Wittchen, E.S. See Haskins, Gu, Wittchen, Hibbard, and Stevenson. Zhang, Z. See Matter, Zhang, Nordstedt, and Ruoslahti. Wolf. A.A., Jobling. M.G., Wimer-Mackin, S., Ferguson-Maltzman, Zheng, L. See Siegel. Martin, Zheng, Ng. Bertin, Cohen, and Lenardo. M., Madara, J.L., Holmes, R.K., and Lencer, W.I. Ganglioside Zheng, Y. See Dictenberg, Zimmerman. Sparks, Young. Vidair, structure dictates signal transduction by cholera toxin and asso¬ Zheng. Carrington, Fay, and Doxsey. ciation with caveolae-like membrane domains in polarized epi- — See Martin. Gunawardane, Iwamatsu. and Zheng. thelia. 917. Zhong, C., Chrzanowska-Wodnicka, M., Brown, J., Shaub, A., Belkin, Wong, M.H., Rubinfeld, B., and Gordon, J.I. Effects of forced ex¬ A.M., and Burridge, K. Rho-mediated contractility exposes a pression of an NHi-terminal truncated (J-catenin on mouse in¬ cryptic site in fibronectin and induces fibronectin matrix assem¬ testinal epithelial homeostasis. 765. bly. 539. Wreford, N.G. See Hudson, Fowler. Earle. Saffery, Kalitsis, Trowell, Zhurinsky, J. See Simcha. Shtutman, Salomon, Zhurinsky, Sadot, Hill, Wreford, de Kretser, Cancilla. Howman, Hii. Cutts. Irvine, Geiger, and Ben-Ze'ev. and Choo. Zicha, D. See Allen, Zicha, Ridley, and Jones. Wu, L., Osmani, S.A., and Mirabito, P.M. A role for NIMA in the nu¬ Zimmerman, W. See Dictenberg. Zimmerman, Sparks. Young, Vidair, clear localization of cyclin B in Aspergillus nididans. 1575. Zheng, Carrington, Fay. and Doxsey. — See Campbell, Bowman. Murphy, Youngman, Siani, Thompson, Zinn, K. See Gindhart, Desai, Beushausen, Zinn, and Goldstein. Wu. Zlotnik. and Butcher. Zlotnik, A. See Campbell. Bowman, Murphy, Youngman, Siani, — See Peracino. Borleis, Jin, Westphal. Schwartz, Wu, Bracco. Thompson, Wu, Zlotnik. and Butcher. Gerisch. Devreotes, and Bozzaro. Zoller, M. See Claas. Seiter, Claas, Savelyeva, Schwab, and Zoller. Wu, S. See Huttenlocher, Lakonishok, Kinder, Wu. Truong, Knudsen, Zweibaum, A. See Huet, Hennebicq-Reig, de Bolos, Ulloa, Lesuffleur. and Horwitz. Barbat, Carriere. Kim, Real. Delannoy, and Zweibaum. The Journal of Cell Biology, Volume 141, 1998 1706

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