News

CASP16 Call for Targets

04/08 wwPDB News

CASP (Critical Assessment of protein Structure Prediction) is in search for targets.CASP (Critical Assessment of protein Structure Prediction) is in search for targets.

CASP (Critical Assessment of protein Structure Prediction) experiments are held every two years. Recent rounds have seen dramatic increases in modeling accuracy, resulting from the introduction of deep learning methods: In 2018, for the first time, the folds of most proteins were correctly computed [1]; in 2020, the accuracy of many computed protein structures rivaled that of the corresponding experimental ones [2]; in 2022, there was an enormous increase in the accuracy of protein complexes [3].

We have seen the beginning of what deep learning methods may achieve in structural biology. In addition to further increases in the accuracy of protein complexes, methods are being developed for RNA structures, organic ligand-protein complexes, and for moving beyond single macromolecular structures to compute conformational ensembles. Accurate computational methods together with experimental data also offer the prospect of probing previously inaccessible biological systems. CASP has expanded its scope to provide critical assessment in all these areas.

CASP is only possible with the generous participation of the experimental structural biology community in providing suitable targets: A total of over 1100 targets have been obtained over the previous CASP rounds. We are now requesting targets for the 2024 CASP16 experiment. We need challenge targets in the following areas:

Single protein structures: The 2020 and 2022 CASPs showed that, so far, Alphafold2 and methods built around it are by far the most accurate [4]. But there are limitations, particularly for some proteins where only a shallow sequence alignment is available and for very large proteins (more than 1000 amino acids). The best results also require substantial amounts of computing resources, well beyond that of the AlphaFold2 default settings. Many new methods are continuing to appear and these may remove some of the remaining difficulties. All types of protein targets are needed, but especially those with shallow sequence alignments, without structural templates, and large proteins.

Protein complexes: In the 2022 CASP15, advanced deep learning methods were applied to protein complexes for the first time [5]. The result was a huge improvement in accuracy compared with classical docking approaches. But overall, the results are still not at the level achieved for single proteins. So, in CASP16 we need all sorts of targets in this area so as to determine progress since then. We particularly need complexes where there is no evolutionary information across the protein-protein interfaces, for example, antibody-antigen complexes. (This CASP category is conducted in close collaboration with our colleagues at CAPRI - Critical Assessment of protein interactions [6]).

Nucleic acid structures and complexes: In recognition of the major role nucleic acid structures and complexes play in biology, CASP now includes this class of target. A number of papers claiming successful RNA structure computation using deep learning methods have been published, but those participating in the 2022 CASP RNA category performed less well than classical approaches, and no methods were able to effectively address the two RNA protein-complexes included [7]. CASP needs a wide variety of RNA, DNA, and complexes as targets to see if this situation has changed. (This CASP category is conducted in close collaboration with RNApuzzles [8]).

Organic ligand-protein complexes: This area is of major importance for computer-aided drug discovery. Earlier, there have been community experiments to assess the accuracy of methods, particularly SAMPL, CSAR, D3R, and a new one, CACHE, has recently started. These challenges have drawn strong international participation from researchers in both academia and industry. Here too, a number of promising deep learning papers have appeared, but in the 2022 CASP15 pilot, classical methods were still superior [9]. So, we need appropriate targets to see if progress has been made since. Ideally, these should be sets of three-dimensional protein-ligand complexes from drug discovery projects, but single targets would also be appreciated. Additionally, where available, we will assess non-structural quantities such as affinities or affinity rankings and other properties of pharmaceutical interest when these are available (small molecule pKs, and DMPK related properties).

Ensembles of macromolecule conformations: It is now widely recognized that proteins and nucleic acids often adopt multiple conformations that can underpin their functions. In these cases, considering only a single protein or RNA conformation may be a significant oversimplification. The 2022 CASP15 included a pilot experiment to assess methods for computing multiple conformations, with encouraging results [10], but with limitations imposed by the available experimental data. For 2024, we seek not only cases of multiple experimental three-dimensional structures for the same macromolecule but also other types of data that might be used for assessment of computed conformation ensembles such as cryoEM, NMR, X-ray crystallography, SAXS, and/or cross-link data.

Integrative modeling: The more powerful computational methods open up new possibilities for combination with sparse or low-resolution experimental data to investigate previously inaccessible biological structures and machines. CASP is interested in exploring these possibilities and so requests experimentally difficult targets where structure has nevertheless been obtained. In appropriate cases, we expect to be able to collaborate with other experimental groups to provide appropriate data from NMR, cross-linking or SAXS.

There are three avenues to contribute a target to CASP:

  1. (preferred) Submit directly to CASP through our web-interface (requires a quick registration if you do not have an account with us).
  2. Email to targets@predictioncenter.org with your target suggestions or to discuss any questions.
  3. Submit your structure to the PDB (on-hold) and designate it as a CASP target through PDB’s submission interface.

The timeline for the 2024 CASP requires that targets are submitted starting now and until July 1. We would like to hear from you as soon as possible if you may have something suitable or have suggestions about other target sources. In order to maintain rigor, the experimental data for a target must not be publicly available until after computed structures have been collected. For assessment, CASP requires the experimental data by August 15, but the data can remain confidential after that. Target providers are invited to contribute to papers [11-15] for a special CASP issue of the journal Proteins.

CASP organizers: John Moult, Krzysztof Fidelis, Andriy Kryshtafovych, Torsten Schwede, Maya Topf

  1. Kryshtafovych A, Schwede T, Topf M, Fidelis K, Moult J. Critical assessment of methods of protein structure prediction (CASP)-Round XIII. Proteins 2019;87(12):1011-1020.
  2. Kryshtafovych A, Schwede T, Topf M, Fidelis K, Moult J. Critical assessment of methods of protein structure prediction (CASP)-Round XIV. Proteins 2021;89(12):1607-1617.
  3. Kryshtafovych A, Schwede T, Topf M, Fidelis K, Moult J. Critical assessment of methods of protein structure prediction (CASP)-Round XV. Proteins 2023;91(12):1539-1549.
  4. Simpkin AJ, Mesdaghi S, Sanchez Rodriguez F, Elliott L, Murphy DL, Kryshtafovych A, Keegan RM, Rigden DJ. Tertiary structure assessment at CASP15. Proteins 2023;91(12):1616-1635.
  5. Ozden B, Kryshtafovych A, Karaca E. The impact of AI-based modeling on the accuracy of protein assembly prediction: Insights from CASP15. Proteins 2023;91(12):1636-1657.
  6. Lensink MF, Brysbaert G, Raouraoua N, Bates PA, Giulini M, Honorato RV, van Noort C, Teixeira JMC, Bonvin A, Kong R, Shi H, Lu X, Chang S, Liu J, Guo Z, Chen X, Morehead A, Roy RS, Wu T, Giri N, Quadir F, Chen C, Cheng J, Del Carpio CA, Ichiishi E, Rodriguez-Lumbreras LA, Fernandez-Recio J, Harmalkar A, Chu LS, Canner S, Smanta R, Gray JJ, Li H, Lin P, He J, Tao H, Huang SY, Roel-Touris J, Jimenez-Garcia B, Christoffer CW, Jain AJ, Kagaya Y, Kannan H, Nakamura T, Terashi G, Verburgt JC, Zhang Y, Zhang Z, Fujuta H, Sekijima M, Kihara D, Khan O, Kotelnikov S, Ghani U, Padhorny D, Beglov D, Vajda S, Kozakov D, Negi SS, Ricciardelli T, Barradas-Bautista D, Cao Z, Chawla M, Cavallo L, Oliva R, Yin R, Cheung M, Guest JD, Lee J, Pierce BG, Shor B, Cohen T, Halfon M, Schneidman-Duhovny D, Zhu S, Yin R, Sun Y, Shen Y, Maszota-Zieleniak M, Bojarski KK, Lubecka EA, Marcisz M, Danielsson A, Dziadek L, Gaardlos M, Gieldon A, Liwo A, Samsonov SA, Slusarz R, Zieba K, Sieradzan AK, Czaplewski C, Kobayashi S, Miyakawa Y, Kiyota Y, Takeda-Shitaka M, Olechnovic K, Valancauskas L, Dapkunas J, Venclovas C, Wallner B, Yang L, Hou C, He X, Guo S, Jiang S, Ma X, Duan R, Qui L, Xu X, Zou X, Velankar S, Wodak SJ. Impact of AlphaFold on structure prediction of protein complexes: The CASP15-CAPRI experiment. Proteins 2023;91(12):1658-1683.
  7. Das R, Kretsch RC, Simpkin AJ, Mulvaney T, Pham P, Rangan R, Bu F, Keegan RM, Topf M, Rigden DJ, Miao Z, Westhof E. Assessment of three-dimensional RNA structure prediction in CASP15. Proteins 2023;91(12):1747-1770.
  8. Magnus M, Antczak M, Zok T, Wiedemann J, Lukasiak P, Cao Y, Bujnicki JM, Westhof E, Szachniuk M, Miao Z. RNA-Puzzles toolkit: a computational resource of RNA 3D structure benchmark datasets, structure manipulation, and evaluation tools. Nucleic Acids Res 2020;48(2):576-588.
  9. Robin X, Studer G, Durairaj J, Eberhardt J, Schwede T, Walters WP. Assessment of protein-ligand complexes in CASP15. Proteins 2023;91(12):1811-1821.
  10. Kryshtafovych A, Montelione GT, Rigden DJ, Mesdaghi S, Karaca E, Moult J. Breaking the conformational ensemble barrier: Ensemble structure modeling challenges in CASP15. Proteins 2023;91(12):1903-1911.
  11. Kretsch RC, Andersen ES, Bujnicki JM, Chiu W, Das R, Luo B, Masquida B, McRae EKS, Schroeder GM, Su Z, Wedekind JE, Xu L, Zhang K, Zheludev IN, Moult J, Kryshtafovych A. RNA target highlights in CASP15: Evaluation of predicted models by structure providers. Proteins 2023;91(12):1600-1615.
  12. Alexander LT, Durairaj J, Kryshtafovych A, Abriata LA, Bayo Y, Bhabha G, Breyton C, Caulton SG, Chen J, Degroux S, Ekiert DC, Erlandsen BS, Freddolino PL, Gilzer D, Greening C, Grimes JM, Grinter R, Gurusaran M, Hartmann MD, Hitchman CJ, Keown JR, Kropp A, Kursula P, Lovering AL, Lemaitre B, Lia A, Liu S, Logotheti M, Lu S, Markusson S, Miller MD, Minasov G, Niemann HH, Opazo F, Phillips GN, Jr., Davies OR, Rommelaere S, Rosas-Lemus M, Roversi P, Satchell K, Smith N, Wilson MA, Wu KL, Xia X, Xiao H, Zhang W, Zhou ZH, Fidelis K, Topf M, Moult J, Schwede T. Protein target highlights in CASP15: Analysis of models by structure providers. Proteins 2023;91(12):1571-1599.
  13. Alexander LT, Lepore R, Kryshtafovych A, Adamopoulos A, Alahuhta M, Arvin AM, Bomble YJ, Bottcher B, Breyton C, Chiarini V, Chinnam NB, Chiu W, Fidelis K, Grinter R, Gupta GD, Hartmann MD, Hayes CS, Heidebrecht T, Ilari A, Joachimiak A, Kim Y, Linares R, Lovering AL, Lunin VV, Lupas AN, Makbul C, Michalska K, Moult J, Mukherjee PK, Nutt WS, Oliver SL, Perrakis A, Stols L, Tainer JA, Topf M, Tsutakawa SE, Valdivia-Delgado M, Schwede T. Target highlights in CASP14: Analysis of models by structure providers. Proteins 2021;89(12):1647-1672.
  14. Lepore R, Kryshtafovych A, Alahuhta M, Veraszto HA, Bomble YJ, Bufton JC, Bullock AN, Caba C, Cao H, Davies OR, Desfosses A, Dunne M, Fidelis K, Goulding CW, Gurusaran M, Gutsche I, Harding CJ, Hartmann MD, Hayes CS, Joachimiak A, Leiman PG, Loppnau P, Lovering AL, Lunin VV, Michalska K, Mir-Sanchis I, Mitra AK, Moult J, Phillips GN, Jr., Pinkas DM, Rice PA, Tong Y, Topf M, Walton JD, Schwede T. Target highlights in CASP13: Experimental target structures through the eyes of their authors. Proteins 2019;87(12):1037-1057.
  15. Kryshtafovych A, Albrecht R, Basle A, Bule P, Caputo AT, Carvalho AL, Chao KL, Diskin R, Fidelis K, Fontes C, Fredslund F, Gilbert HJ, Goulding CW, Hartmann MD, Hayes CS, Herzberg O, Hill JC, Joachimiak A, Kohring GW, Koning RI, Lo Leggio L, Mangiagalli M, Michalska K, Moult J, Najmudin S, Nardini M, Nardone V, Ndeh D, Nguyen TH, Pintacuda G, Postel S, van Raaij MJ, Roversi P, Shimon A, Singh AK, Sundberg EJ, Tars K, Zitzmann N, Schwede T. Target highlights from the first post-PSI CASP experiment (CASP12, May-August 2016). Proteins 2018;86 Suppl 1(Suppl 1):27-50.

News Index

seductrice.net
universo-virtual.com
buytrendz.net
thisforall.net
benchpressgains.com
qthzb.com
mindhunter9.com
dwjqp1.com
secure-signup.net
ahaayy.com
tressesindia.com
puresybian.com
krpano-chs.com
cre8workshop.com
hdkino.org
peixun021.com
qz786.com
utahperformingartscenter.org
worldqrmconference.com
shangyuwh.com
eejssdfsdfdfjsd.com
playminecraftfreeonline.com
trekvietnamtour.com
your-business-articles.com
essaywritingservice10.com
hindusamaaj.com
joggingvideo.com
wandercoups.com
wormblaster.net
tongchengchuyange0004.com
internetknowing.com
breachurch.com
peachesnginburlesque.com
dataarchitectoo.com
clientfunnelformula.com
30pps.com
cherylroll.com
ks2252.com
prowp.net
webmanicura.com
sofietsshotel.com
facetorch.com
nylawyerreview.com
apapromotions.com
shareparelli.com
goeaglepointe.com
thegreenmanpubphuket.com
karotorossian.com
publicsensor.com
taiwandefence.com
epcsur.com
mfhoudan.com
southstills.com
tvtv98.com
thewellington-hotel.com
bccaipiao.com
colectoresindustrialesgs.com
shenanddcg.com
capriartfilmfestival.com
replicabreitlingsale.com
thaiamarinnewtoncorner.com
gkmcww.com
mbnkbj.com
andrewbrennandesign.com
cod54.com
luobinzhang.com
faithfirst.net
zjyc28.com
tongchengjinyeyouyue0004.com
nhuan6.com
kftz5k.com
oldgardensflowers.com
lightupthefloor.com
bahamamamas-stjohns.com
ly2818.com
905onthebay.com
fonemenu.com
notanothermovie.com
ukrainehighclassescort.com
meincmagazine.com
av-5858.com
yallerdawg.com
donkeythemovie.com
corporatehospitalitygroup.com
boboyy88.com
miteinander-lernen.com
dannayconsulting.com
officialtomsshoesoutletstore.com
forsale-amoxil-amoxicillin.net
generictadalafil-canada.net
guitarlessonseastlondon.com
lesliesrestaurants.com
mattyno9.com
nri-homeloans.com
rtgvisas-qatar.com
salbutamolventolinonline.net
sportsinjuries.info
wedsna.com
rgkntk.com
bkkmarketplace.com
zxqcwx.com
breakupprogram.com
boxcardc.com
unblockyoutubeindonesia.com
fabulousbookmark.com
beat-the.com
guatemala-sailfishing-vacations-charters.com
magie-marketing.com
kingstonliteracy.com
guitaraffinity.com
eurelookinggoodapparel.com
howtolosecheekfat.net
marioncma.org
oliviadavismusic.com
shantelcampbellrealestate.com
shopleborn13.com
topindiafree.com
v-visitors.net
djjky.com
053hh.com
originbluei.com
baucishotel.com
33kkn.com
intrinsiqresearch.com
mariaescort-kiev.com
mymaguk.com
sponsored4u.com
crimsonclass.com
bataillenavale.com
searchtile.com
ze-stribrnych-struh.com
zenithalhype.com
modalpkv.com
bouisset-lafforgue.com
useupload.com
37r.net
autoankauf-muenster.com
bantinbongda.net
bilgius.com
brabustermagazine.com
indigrow.org
miicrosofts.net
mysmiletravel.com
selinasims.com
spellcubesapp.com
usa-faction.com
hypoallergenicdogsnames.com
dailyupdatez.com
foodphotographyreviews.com
cricutcom-setup.com
chprowebdesign.com
katyrealty-kanepa.com
tasramar.com
bilgipinari.org
four-am.com
indiarepublicday.com
inquick-enbooks.com
iracmpi.com
kakaschoenen.com
lsm99flash.com
nana1255.com
ngen-niagara.com
technwzs.com
virtualonlinecasino1345.com
wallpapertop.net
casino-natali.com
iprofit-internet.com
denochemexicana.com
eventhalfkg.com
medcon-taiwan.com
life-himawari.com
myriamshomes.com
nightmarevue.com
healthandfitnesslives.com
androidnews-jp.com
allstarsru.com
bestofthebuckeyestate.com
bestofthefirststate.com
bestwireless7.com
britsmile.com
declarationintermittent.com
findhereall.com
jingyou888.com
lsm99deal.com
lsm99galaxy.com
moozatech.com
nuagh.com
patliyo.com
philomenamagikz.net
rckouba.net
saturnunipessoallda.com
tallahasseefrolics.com
thematurehardcore.net
totalenvironment-inthatquietearth.com
velislavakaymakanova.com
vermontenergetic.com
kakakpintar.com
jerusalemdispatch.com
begorgeouslady.com
1800birks4u.com
2wheelstogo.com
6strip4you.com
bigdata-world.net
emailandco.net
gacapal.com
jharpost.com
krishnaastro.com
lsm99credit.com
mascalzonicampani.com
sitemapxml.org
thecityslums.net
topagh.com
flairnetwebdesign.com
rajasthancarservices.com
bangkaeair.com
beneventocoupon.com
noternet.org
oqtive.com
smilebrightrx.com
decollage-etiquette.com
1millionbestdownloads.com
7658.info
bidbass.com
devlopworldtech.com
digitalmarketingrajkot.com
fluginfo.net
naqlafshk.com
passion-decouverte.com
playsirius.com
spacceleratorintl.com
stikyballs.com
top10way.com
yokidsyogurt.com
zszyhl.com
16firthcrescent.com
abogadolaboralistamd.com
apk2wap.com
aromacremeria.com
banparacard.com
bosmanraws.com
businessproviderblog.com
caltonosa.com
calvaryrevivalchurch.org
chastenedsoulwithabrokenheart.com
cheminotsgardcevennes.com
cooksspot.com
cqxzpt.com
deesywig.com
deltacartoonmaps.com
despixelsetdeshommes.com
duocoracaobrasileiro.com
fareshopbd.com
goodpainspills.com
hemendekor.com
kobisitecdn.com
makaigoods.com
mgs1454.com
piccadillyresidences.com
radiolaondafresca.com
rubendorf.com
searchengineimprov.com
sellmyhrvahome.com
shugahouseessentials.com
sonihullquad.com
subtractkilos.com
valeriekelmansky.com
vipasdigitalmarketing.com
voolivrerj.com
worldhealthstory.com
zeelonggroup.com
1015southrockhill.com
10x10b.com
111-online-casinos.com
191cb.com
3665arpentunitd.com
aitesonics.com
bag-shokunin.com
brightotech.com
communication-digitale-services.com
covoakland.org
dariaprimapack.com
freefortniteaccountss.com
gatebizglobal.com
global1entertainmentnews.com
greatytene.com
hiroshiwakita.com
iktodaypk.com
jahatsakong.com
meadowbrookgolfgroup.com
newsbharati.net
platinumstudiosdesign.com
slotxogamesplay.com
strikestaruk.com
techguroh.com
trucosdefortnite.com
ufabetrune.com
weddedtowhitmore.com
12940brycecanyonunitb.com
1311dietrichoaks.com
2monarchtraceunit303.com
601legendhill.com
850elaine.com
adieusolasomade.com
andora-ke.com
bestslotxogames.com
cannagomcallen.com
endlesslyhot.com
iestpjva.com
ouqprint.com
pwmaplefest.com
qtylmr.com
rb88betting.com
buscadogues.com
1007macfm.com
born-wild.com
growthinvests.com
promocode-casino.com
proyectogalgoargentina.com
wbthompson-art.com
whitemountainwheels.com
7thavehvl.com
developmethis.com
funkydogbowties.com
travelodgegrandjunction.com
gao-town.com
globalmarketsuite.com
blogshippo.com
hdbka.com
proboards67.com
outletonline-michaelkors.com
kalkis-research.com
thuthuatit.net
buckcash.com
hollistercanada.com
docterror.com
asadart.com
vmayke.org
erwincomputers.com
dirimart.org
okkii.com
loteriasdecehegin.com
mountanalog.com
healingtaobritain.com
ttxmonitor.com
nwordpress.com
11bolabonanza.com