[$BA0$N9f(J][$B<!$N9f(J]

Science July 9, 2004, Vol.305

$B%U%)%H%K%C%/7k>=$O;W$$$r?4$KHk$a$F(J(Photonic Crystals Keep It In)

3$B=$OFCDj$NGHD9$NEE<'GH$rJ|=P$7$?$j!"JaB*$7$?$j$7(J $B$F!"8w3X3h@-:`NA$NH/8wFC@-$N@)8f$KMQ$$$k$3$H$,$G$-$k!#$7$+$7$J$,$i!"8w3h@-(J $BCf?4$rJq4^$7$?K~B-$9$Y$-FC@-$N%U%)%H%K%C%/7k>=$r@.D9$5$;$k$3$H$OFq$7$$LdBj(J $B$G$"$k$3$H$,H=$C$F$-$?!#(JOgawa $B$?$A(J (p.227) $B$O!"(J3D$B$N%U%)%H%K%C%/7k>=$r:n@.$7(J $B$?!#$3$N7k>=$O!"40A4$J(J 3D $B%P%s%I%.%c%C%W$r<($9$3$H$,CN$i$l$F$$$k9=B$$rM-$7(J $B$F$*$j!"$5$i$K!"FbIt$K$OH/8wAX$bJ];}$7$F$$$k!#8w3h@-AX$+$i$N<+A3J|=P$O(J3D$B$N(J $B%U%)%H%K%C%/7k>=$K$h$C$F0O$^$l$?NN0h$G$OM^@)$5$l$?$,!"%U%)%H%K%C%/7k>=Fb$K(J $B:n$j$3$^$l$??M9)E*$J7g4Y$+$i$OH/8w$,8+$i$l$?!#(J(Wt,KF)
Control of Light Emission by 3D Photonic Crystals
   Shinpei Ogawa, Masahiro Imada, Susumu Yoshimoto, Makoto Okano, and Susumu Noda
p. 227-229.

$B:81&AjBP@-$N;O$^$j(J(Bilateral Beginnings)

$BB?:YK&@8J*$N5?$&M>CO$N$J$$:G$b=i4|$N>Z5r$K$O!"Cf9q$GLs(J5$B2/(J8$B@iK|G/$+$i(J6$B2/(J $BK|(J $BG/A0$KBO@Q$7$?(JDoushantuo Formation$BCf$KH/8+$5$l$?>.$5$Jfu(J(embryos)$B$,4^$^$l(J $B$k!#$3$l$i$N!HMq!I$r;:$s$@%K%o%H%j$O$3$l$^$GH=$i$J$+$C$?!#$7$+$b$3$l$i$N2=@P(J $B$,=i4|$N:81&Aj>NF0J*(J(bilateral animals)$B$rI=$o$7$F$$$k$N$+$I$&$+$OITL@$G$"$C(J $B$?!#B?:YK&@8J*$,0l5$$K3H$,$C$?%+%s%V%j%"5*(J($BLs(J5$B2/(J4$B@iK|G/A0(J)$B$h$j0JA0$N(J Edicaran($BLs(J5$B2/(J6$B@iG/A0(J)$B$G$O!"$[$s$N(J2$B!A(J3$B$N:81&Aj>NF0J*$7$+8+$i$l$J$$$N$G$"(J $B$k!#(JChen$B$?$A(J(p.218)$B$O!"(JDoushantuo Formation$B$+$i$($i$l$?:81&BP>N@-$rM-$9$k>.(J $B$5$J2=@P$J$N$+$K$D$$$F=R$Y$F$$$k!#$=$NF0J*$i$7$$$b$N$OD>7B(J200$B%^%$%/%m%a!<%H(J $B%k$KB-$j$J$$$,!"$=$NCf$K4v$D$+FbIt4o41$r8+J,$1$k$3$H$,$G$-$k!#(J(TO,KF)
Small Bilaterian Fossils from 40 to 55 Million Years Before the Cambrian
   Jun-Yuan Chen, David J. Bottjer, Paola Oliveri, Stephen Q. Dornbos, Feng Gao, Seth Ruffins, Huimei Chi, Chia-Wei Li, and Eric H. Davidson
p. 218-222.

$BH?1~@-$N%i%8%+%k(J(Reactionary Radicals)

$B%j%\%L%/%l%*%A%I4T859ZAG(J(RNR)$B$O(J,$B%i%8%+%k$K4p$E$/2=3XH?1~$K$h$j(JDNA$B$N9=@.MWAG(J $B$G$"$k%G%*%-%7%j%\%L%/%l%*%A%I$r9g@.$9$k!#%/%i%9-5$N(JRNR$B$K$*$$$F$O!"(JR$B#2%?%s%Q(J $B%/I$+$i(J $B$N(JR2$B$N9=B$$G$O!"%A%m%7%s$,%U%'%K!<%k%"%i%K%s$KCV$-49$o$C$F$*$j!"EE;R>o<'@-(J $B6&LD$N8&5f$+$i$O%A%m%7%s$N%i%8%+%k$,B8:_$7$F$$$J$$$3$H$r<($5$l$k!#$=$NBe$o(J $B$j$K:F9=@.$5$l$?%?%s%Q%/$N4v$D$+$NIB86(J $BBN$+$i$NN`;w$N(JR$B#2$O!"=I The Radical Site in Chlamydial Ribonucleotide Reductase Defines a New R2 Subclass
   Martin Högbom, Pål Stenmark, Nina Voevodskaya, Grant McClarty, Astrid Gräslund, and Pär Nordlund
p. 245-248.

$B%4!<%k$rF@$k(J(Scoring Goals)

$B$o$l$o$l$N6ZFy$r3h@-2=$7!"1?F0$r2DG=$K$9$kHie$N%+!<%=%k$d5!3#$NOS$J$I$N?M9)E*$J>u67(J $B2<$G$NF1MM$N1?F0$r@)8f$9$k$N$KMxMQ$9$k$3$H$,$G$-$k!#(JMusallam$B$?$A$O!"%5%k$N(J $BF,D:$NHipJs$r6!5k$G$-$k$H$$$&$3$H$r<($7$F$$$k(J(p. 258)$B!#%5%k$?$A$O!"$h$j;~4V7P2a$KB($7$?6u4VE*$K@53N$J?.9f$r@8$_=P$9$3$H(J($B$3$l(J $B$O!"0U?^$r$h$jL@3N$K7A@.$9$k$3$H$rI=$92DG=@-$,$"$k(J)$B$r!"%4!<%k(J($BL\I8(J)$B$r@53N$K(J $BFCDj$9$k$3$H$KBP$9$k4|BT$5$l$kJs=7$rH?1G$9$k(J($B$3$l$O!"0U?^$NF05!IU$1$N4pAC$K(J $BBP1~$9$k2DG=@-$,$"$k(J)$B$h$&$K!"3X=,$7$?$N$G$"$k!#(J(KF)
Cognitive Control Signals for Neural Prosthetics
   S. Musallam, B. D. Corneil, B. Greger, H. Scherberger, and R. A. Andersen
p. 258-262.

$B%R%^%i%d;3L.$+$i9J$j=P$5$l$kFf(J(Himalayan Squeeze a Puzzle)

$B%$%s%I0!BgN&$,%f!<%i%7%"BgN&$K$V$D$+$k$3$H$G!"J#;($JBgN&4V>WFM$K$h$C$F%R%^(J $B%i%d;3L.$,:n$j>e$2$i$l$?!#$3$3$G$O!"(JKarakoram $B$d(J Altyn Tagh$B$H8F$P$l$k$$$/$D(J $B$+$NAv8~0\F0CGAX(J(strike-slip fault)$B$,!"%W%i%H!$J%b%G%k$K$h$l(J $B$P(J, $B9bCO$O0l$D$N9E$$CO3L$N8G$^$j$H$7$F!">e$NFs$D$NBgCGAX$K64$^$l$FEl$K2!$7(J $B=P$5$l$F$$$k$N$G$"$k!#(JWright $B$?$A(J(p. 236) $B$O!"(JKarakoram$BCGAX$H@>It(JAltyn Tagh $BCGAX$K1h$C$F3j$jNL$r7WB,$7!"=>Mh$N2!$7=P$7%b%G%k$KI,MW$J3j$jNL$h$j$b>.$5$J(J $B3j$jN($7$+F@$i$l$J$+$C$?!#$=$NBe$o$j!"%8%0%=!<%Q%:%k$N$h$&$K!"JQ7ANL$OB?$/(J $B$NCGAX$K1h$C$FJ,;6$5$l$F$*$j!"8D!9$NCGJR$O0l=o$K>.$5$J3j$jNL$G0l=o$KF0$$$?(J $B$j!"$"$k$$$O0[$J$k;~4|$KF0$$$F$*$j!"$3$N$3$H$OeIt(J $BCO3L$H:G2eIt%^%s%H%kJ}8~$X0\F0$7$F$$(J $B$k$3$H$r<(:6$7$F$$$k!#(J(Ej,nk,KF)
Thinning and Flow of Tibetan Crust Constrained by Seismic Anisotropy
   Nikolai M. Shapiro, Michael H. Ritzwoller, Peter Molnar, and Vadim Levin
p. 233-236.
InSAR Observations of Low Slip Rates on the Major Faults of Western Tibet
   Tim J. Wright, Barry Parsons, Philip C. England, and Eric J. Fielding
p. 236-239.

$B:F7k>=2=$r:FD4::!J(JRecrystallization Revisited$B!K(J

$B6bB0$rBg$-$/JQ7A$9$k$H!"6bB0$K2C$($i$l$?%(%M%k%.$K$h$C$F2a>j$N2s0L(J($B%G%#%9%/(J $B%j%M!<%7%g%s(J)$B$dE@7g4Y$,@8$8$k!#%"%K!<%j%s%0$N:]$K$O!">.$5$J7k>=N3$N:F7k>=2=(J $B$d7k>=N3$N@.D9Ey?tB?$/$N%a%+%K%:%`$K$h$C$F7g4YL)EY$O8:>/$9$k!#$3$N:F7k>=2=(J $B$N%W%m%;%9$O6Qu$N7k>=@.D9$KF3$/$b$N$H9M$($i$l$F$$(J $B$?!#(JSchmidt$B$?$A(J(p. 229)$B$O#3l$G$N:F7k>=2=$N%W%m%;%9$rD4$Y$?!#H`$i$O$=$N7k>=@.(J $BD9%Q%?!<%s$,!" Watching the Growth of Bulk Grains During Recrystallization of Deformed Metals
   S. Schmidt, S. F. Nielsen, C. Gundlach, L. Margulies, X. Huang, and D. Juul Jensen
p. 229-232.

$B%(%j%9%m%]%(%A%s3h@-$N=$>~!J(JModifying Erythropoietin Activity$B!K(J

$B%5%$%H%+%$%s$G$"$k%(%j%9%m%]%(%A%s$O!"E57?E*$J%(%j%9%m%]%(%A%s Derivatives of Erythropoietin That Are Tissue Protective But Not Erythropoietic
   Marcel Leist, Pietro Ghezzi, Giovanni Grasso, Roberto Bianchi, Pia Villa, Maddalena Fratelli, Costanza Savino, Marina Bianchi, Jacob Nielsen, Jens Gerwien, Pekka Kallunki, Anna Kirstine Larsen, Lone Helboe, Søren Christensen, Lars O. Pedersen, Mette Nielsen, Lars Torup, Thomas Sager, Alessandra Sfacteria, Serhat Erbayraktar, Zubeyde Erbayraktar, Necati Gokmen, Osman Yilmaz, Carla Cerami-Hand, Qiao-wen Xie, Thomas Coleman, Anthony Cerami, and Michael Brines
p. 239-242.

$B%U%i%?%-%7%s$K$h$k%_%H%3%s%I%j%"J]8n!J(JMitochondrial Protection by Frataxin$B!K(J

$B%U%j!<%I%i%$%R1?F0<:D4>I$O!"%_%H%3%s%I%j%"$NE47k9g%?%s%Q%/~$5$l$k:]$KI,MW$H$5$l$k!"E4%7%c%Z%m%s%?%s%Q%//$5$;!"$=$7$FIT3h@-(J $B$J(J[3Fe-4S]1+$B7?$N9ZAG$r3h@-$J(J [4Fe-4S]2+$B7?$X$HJQ49$9(J $B$k!#$3$N$h$&$K$7$F%"%3%K%?!<%<(J[4Fe-4S]2+$B%/%i%9%?!<$,J,2r$5$l$J$$(J $B$h$&$KJ]8n$9$k$3$H$K$h$j!"%U%i%?%-%7%s$O!"9ZAG$N:F3h@-2=$rB%?J$7!"E4$NC_@Q(J $B$rAK32$7$=$7$F9bH?1~@-$GFG@-$N%R%I%m%-%7%k%i%8%+%k$N;:@8$rAK32$9$k$3$H$,$G(J $B$-$k!#%U%i%?%-%7%s$NG;EY!"$=$N9=B$!"$=$7$F$=$N%7%c%Z%m%s5!G=$rJQ2=$5$;$k(J $B$H!";@2=B%?J:^G;EY$NA}2C$d%"%3%K%?!<%<$N8:>/!"$"$k$$$O%_%H%3%s%I%j%"3h@-$N(J $BDc2<$KH<$&JQ Frataxin Acts as an Iron Chaperone Protein to Modulate Mitochondrial Aconitase Activity
   Anne-Laure Bulteau, Heather A. O'Neill, Mary Claire Kennedy, Masao Ikeda-Saito, Grazia Isaya, and Luke I. Szweda
p. 242-245.

$B8;$KLa$k(J(Going Back to the Source)

$B6;A#$O(JT$B:YK&$N$N4o41$,(JT$B:YK&(J $B8;$H$7$F=EMW$JBeBXIt0L$K$J$k$3$H$r<(:6$9$k>Z5r$,B?$$!#FC$K!"D24IG4Kl$N>eHi(J $B:YK&$N4V$KB8:_$9$kBgNL$N(JT$B:YK&$G$"$k>eHiFb%j%s%Q5e$OG4KlFb$NFC0[E*H/@8$NEg$K(J $B5-;v;2>H(J)$B$O1?L?M=Dj?^%"%W%m!<%A!J(Jfate-mapping approach$B!K$rMQ$$$F!">e(J $BHiFb%j%s%Q5e$,6;A#:YK&$+$i$ND>7O$N;RB9$G$"$k$3$H$r<($9L@Gr$J>Z5r$rDs6!$7$F(J $B$$$k!#=>$C$F!"6;A#30H/@8$,(JT$B:YK&%W!<%k$KM-0U$K4sM?$9$k2DG=@-$O>/$J(J $B$$!#(J(An.hE)
Thymic Origin of Intestinal $B&A(Jß T Cells Revealed by Fate Mapping of ROR$B&C(Jt+ Cells
   Gérard Eberl and Dan R. Littman
p. 248-251.

$B%3%s%G%s%7%s(JDNA(Condensin DNA)

$B:YK&J,Nv;~$K@w?'BN$,@53N$KJ,N%$5$l$k$h$&!"$9$Y$F$N@8J*BN$O<+J,$N@w?'BN$r%3(J $B%s%Q%/%H$J9=B$$K6E=L$9$k!#$3$N6E=L$r9T$J$&%?%s%Q%/5-;v;2>H(J)$B$OC10lJ,;RJ,@O$rMQ$$$F!":Y6]@-(J $B%3%s%G%s%7%s(JMukBEF$B$K$h$k(JDNA$B6E=L$N5!9=$r8&5f$7$F$$$k!#(JMukBEF$B$K$h$j(JDNA$BJ,;R$,(J $BCa=x@5$7$/H?I|E*$J$d$j$+$?$G6E=L$5$l$k$,!"%(%M%k%.8;$H$7$F%L%/%l%*%A%I7k9g(J $B$,I,MW$G$"$k!#(JDNA$B$H$NHs>o$K0BDj$7$?Aj8_:nMQ$OHs6E=L>uBV!J?-$S$?>uBV!K$G$b0](J $B;}$5$l$F$$$k!#%3%s%G%s%7%sJ,;R$O(JDNA$B$K1h$C$F%9%i%$%I$9$k$3$H$O$J$$!#$=$NBe$o(J $B$j$K6(F1E*$KAj8_:nMQ$7$F(JDNA$B$r@^$j$?$?$`$N$G$"$k!#(J(An,KF)
The Bacterial Condensin MukBEF Compacts DNA into a Repetitive, Stable Structure
   Ryan B. Case, Yun-Pei Chang, Steven B. Smith, Jeff Gore, Nicholas R. Cozzarelli, and Carlos Bustamante
p. 222-227.

$B5{$N@TDGB;=}$r<#$9(J(Fixing Spinal Injury in Fish)

$B%R%H$N@TDGB;=}$K$h$kHa7`$O!"@T?q%K%e!<%m%s$,:F@8$G$-$l$P$:$C$H7Z8:$5$l$k$3(J $B$H$K$J$k$,!"%R%H$N%K%e!<%m%s$O$J$+$J$+$=$&$O$J$C$F$$$J$$!#@)Ls$H$J$C$F$$$k(J $BMW0x$O!"B;=}$rJ}$,$"$k!#%<%V%i(J $B%U%#%C%7%e$G$O!"(JCNS$B$,(J $B0lHLE*$JM^@)@-$N@- Cyclic AMP-Induced Repair of Zebrafish Spinal Circuits
   Dimple H. Bhatt, Stefanie J. Otto, Brett Depoister, and Joseph R. Fetcho
p. 254-258.

$BL5@TDGF0J*$N<+8JKI1R(J(Self-Defense in the Spineless)

$B@TDGF0J*$NLH1V7O$N82Cx$JFCD'$O!"LH1Vo$KBg5,LO$J%l%Q!<%H%j(J $B$r;:@8$9$kG=NO$N$"$k$3$H$G$"$k!#L5@TDGF0J*$b$^$?LH1V%0%m%V%j%s!&%9!<%Q!<(J $B%U%!%_%j(J(IgSF)$B$N%a%s%P!<$K$h$C$F%3!<%I$5$l$?%?%s%Q%/IU$1$i$l$?B?MM$J(JIgSF $B0dEA;R$rH/8+$7$?(J(p. 251)$B!#>\$7$$@:::$K$h$C$F!"(JFREP$BB?MM@-$,!"@TDGF0J*$K$*$1(J $B$k93BNB?MM@-$r@8$_=P$9$N$r=u$1$k(J2$B$D$N;EAH$_!"E@JQ0[$H0dEA;RJQ49N`;w$N%W%m%;(J $B%9$H$K$h$C$F@8$_=P$5$l$k$3$H$,L@$i$+$K$J$C$?!#(J(KF)
Diversification of Ig Superfamily Genes in an Invertebrate
   Si-Ming Zhang, Coen M. Adema, Thomas B. Kepler, and Eric S. Loker
p. 251-254.
[$BA0$N9f(J][$B<!$N9f(J]