id stringlengths 9 9 | question stringclasses 284
values | options listlengths 0 15 | answer stringlengths 1 1.49k | images listlengths 1 18 | question_type stringclasses 3
values | field stringclasses 5
values | lang stringclasses 2
values |
|---|---|---|---|---|---|---|---|
E016/0004 | <image> Select the two depth ranges with the largest difference between the two data in the figure. | [
"(A) 0-100m",
"(B) 100-200m",
"(C) 200-300m",
"(D) 300-400m"
] | ['C', 'D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E016_cmip6_cmp_Gulf_of_Mexico_INM-CM5-0_14c900ad5919bba556fcb021f76bc50d.png"
] | mcq | earth | en |
E016/0005 | <image> Select the two depth ranges with the largest difference between the two data in the figure. | [
"(A) 0-100m",
"(B) 100-200m",
"(C) 200-300m",
"(D) 300-400m"
] | ['C', 'D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E016_cmip6_cmp_Gulfstream_INM-CM5-0_61b14b24c40fd281442f937f721869d5.png"
] | mcq | earth | en |
E016/0006 | <image> Select the two depth ranges with the largest difference between the two data in the figure. | [
"(A) 0-100m",
"(B) 100-200m",
"(C) 200-300m",
"(D) 300-400m"
] | ['B', 'C'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E016_cmip6_cmp_Peru-Chile_Coast_INM-CM5-0_6135dd09e9b0052c1f4c58de00cf8dad.png"
] | mcq | earth | en |
E016/0007 | <image> Select the two depth ranges with the largest difference between the two data in the figure. | [
"(A) 0-100m",
"(B) 100-200m",
"(C) 200-300m",
"(D) 300-400m"
] | ['A', 'B'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E016_cmip6_cmp_Sargasso_Sea_INM-CM5-0_4edc89c28b77c1ebb3bc1126cfa9ab4b.png"
] | mcq | earth | en |
E016/0008 | <image> Select the two depth ranges with the largest difference between the two data in the figure. | [
"(A) 0-100m",
"(B) 100-200m",
"(C) 200-300m",
"(D) 300-400m"
] | ['C', 'D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E016_cmip6_cmp_South_Pacific_Subtropical_BCC-CSM2-MR_9cf12b76c678d3ee5c5e221cba065ae1.png"
] | mcq | earth | en |
E016/0009 | <image> Select the two depth ranges with the largest difference between the two data in the figure. | [
"(A) 0-100m",
"(B) 100-200m",
"(C) 200-300m",
"(D) 300-400m"
] | ['A', 'B'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E016_cmip6_cmp_Western_Pacific_Warm_Pool_CAS-ESM2-0_62bb24309888e60b52d5277c4cd13ec7.png"
] | mcq | earth | en |
E017/0000 | <image> The following figure shows the global surface temperature anomaly. Please select the two approximate areas with the hottest and coldest temperature anomalies respectively. | [
"North Central Eurasia",
"Qinghai-Tibet Plateau",
"East Asia",
"Northern North America"
] | ['A', 'D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E017_era5_t2m_ano_2005-01_c3580aa35ac1fad35caf7ac23c5f46a5.png"
] | mcq | earth | en |
E017/0001 | <image> The following figure shows the global surface temperature anomaly. Please select the two approximate areas with the hottest and coldest temperature anomalies respectively. | [
"Central Asia",
"Europe",
"Northwest North America",
"Greenland"
] | ['B', 'D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E017_era5_t2m_ano_2005-03_0951ac5ff6bbb39d8d4d433e75311b43.png"
] | mcq | earth | en |
E017/0002 | <image> The following figure shows the global surface temperature anomaly. Please select the two approximate areas with the hottest and coldest temperature anomalies respectively. | [
"Northeast Asia",
"Central Asia",
"Northwest North America",
"North Africa"
] | ['A', 'C'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E017_era5_t2m_ano_2006-11_122885effc4b931cfd8f888a30c11705.png"
] | mcq | earth | en |
E017/0003 | <image> The following figure shows the global surface temperature anomaly. Please select the two approximate areas with the hottest and coldest temperature anomalies respectively. | [
"Northeastern North America",
"South North America",
"North Central Eurasia",
"North Africa"
] | ['A', 'C'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E017_era5_t2m_ano_2010-02_3951009f464d6ceeb234d9a4dd261106.png"
] | mcq | earth | en |
E017/0004 | <image> The following figure shows the global surface temperature anomaly. Please select the two approximate areas with the hottest and coldest temperature anomalies respectively. | [
"Northwest North America",
"Northeast Asia",
"Central Asia",
"Australia"
] | ['A', 'B'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E017_era5_t2m_ano_2013-10_ff49864182c7f4a6311cda6665c96635.png"
] | mcq | earth | en |
E017/0005 | <image> The following figure shows the global surface temperature anomaly. Please select the two approximate areas with the hottest and coldest temperature anomalies respectively. | [
"Central Eurasia",
"North Africa",
"Qinghai-Tibet Plateau",
"Northeastern North America"
] | ['A', 'B'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E017_era5_t2m_ano_2016-11_14060e00317b197be57cdb64b3fdab1e.png"
] | mcq | earth | en |
E017/0006 | <image> The following figure shows the global surface temperature anomaly. Please select the two approximate areas with the hottest and coldest temperature anomalies respectively. | [
"Australia",
"Northern Eurasia",
"Northwest North America",
"South North America"
] | ['B', 'C'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E017_era5_t2m_ano_2017-03_f00f4e368347ce953b6b900365ee8339.png"
] | mcq | earth | en |
E017/0007 | <image> The following figure shows the global surface temperature anomaly. Please select the two approximate areas with the hottest and coldest temperature anomalies respectively. | [
"Bering Sea",
"Australia",
"Central Asia",
"Northern North America"
] | ['A', 'D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E017_era5_t2m_ano_2018-09_f180550b3165fc8a1a3df1d5c43346b3.png"
] | mcq | earth | en |
E017/0008 | <image> The following figure shows the global surface temperature anomaly. Please select the two approximate areas with the hottest and coldest temperature anomalies respectively. | [
"North Central Eurasia",
"Alaska",
"North Africa",
"Northern South America"
] | ['A', 'B'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E017_era5_t2m_ano_2020-02_1e9d714ba51c986db8b132174acf3f02.png"
] | mcq | earth | en |
E017/0009 | <image> The following figure shows the global surface temperature anomaly. Please select the two approximate areas with the hottest and coldest temperature anomalies respectively. | [
"Australia",
"Europe",
"North Central Eurasia",
"North Central North America"
] | ['C', 'D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/E017_era5_t2m_ano_2020-04_dc39a4ebc57a499716fb70a89c78ea71.png"
] | mcq | earth | en |
L009/0000 | From the molecular structure PDB image <image>, (remove hydrogen atoms), please answer number of ligand chains with integers | [] | 2 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L009_0000_36cc460084784c4d33633626296aba64.png"
] | exact_match | life | en |
L009/0001 | From the molecular structure PDB image <image>, (remove hydrogen atoms), please answer the number of ligand chains with integers | [] | 2 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L009_0001_ea63daa71ac60dbda11b388d0f829676.png"
] | exact_match | life | en |
L009/0002 | From the molecular structure PDB image <image>, (remove hydrogen atoms), please answer the number of ligand chains with integers | [] | 0 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L009_0002_e3475ae3472de5584f343b1657a7b157.png"
] | exact_match | life | en |
L009/0003 | From the molecular structure PDB image <image>, (remove hydrogen atoms), please answer the number of ligand chains with integers | [] | 1 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L009_0003_ad635cce982c8d251b840b5af220d256.png"
] | exact_match | life | en |
L009/0004 | From the molecular structure PDB image <image>, (remove hydrogen atoms), please answer the number of ligand chains with integers | [] | 2 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L009_0004_09de6dd140d462ab5f2de068a7f74112.png"
] | exact_match | life | en |
L009/0005 | From the molecular structure PDB image <image>, (remove hydrogen atoms), please answer the number of ligand chains with integers | [] | 4 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L009_0005_5e57d2fbfcdf424fefc2f129982df092.png"
] | exact_match | life | en |
L009/0006 | From the molecular structure PDB image <image>, (remove hydrogen atoms), please answer the number of ligand chains with integers | [] | 3 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L009_0006_1de6d9d3ab0be5b3b6620f9fe707b421.png"
] | exact_match | life | en |
L009/0007 | From the molecular structure PDB image <image>, (remove hydrogen atoms), please answer the number of ligand chains with integers | [] | 6 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L009_0007_8cb6c9e8ee4d9713e144f68523a79928.png"
] | exact_match | life | en |
L009/0008 | From the molecular structure PDB image <image>, (remove hydrogen atoms), please answer the number of ligand chains with integers | [] | 2 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L009_0008_6ee42cd57b2a75d7ce52e31cf3062f85.png"
] | exact_match | life | en |
L009/0009 | From the molecular structure PDB image <image>, (remove hydrogen atoms), please answer the number of ligand chains with integers | [] | 4 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L009_0009_348940deb429e87fa79ba931e5c31b24.png"
] | exact_match | life | en |
L009/0010 | From the molecular structure PDB image <image>, (remove hydrogen atoms), please answer the number of ligand chains with integers | [] | 4 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L009_0010_145336c471bb33a20444ab39e93de133.png"
] | exact_match | life | en |
L009/0011 | From the molecular structure PDB image <image>, (remove hydrogen atoms), please answer the number of ligand chains with integers | [] | 1 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L009_0011_6972c92122d25cf10a374e95b807c49d.png"
] | exact_match | life | en |
L020/0000 | You are a professional biologist, andy you are skilled at reading and analyzing RNA secondary structure pictures. Please generate a natural language description for the given RNA <image>, find the length, describe the internal loops and hairpin loops of the RNA and point out their start and terminate position. | [] | The RNA is comprised of 119 bases in total, which has two internal loops from position U21 to C26, position U53 to C57; from position A71 to A78 and from position G9 to C104, and it also has two hairpin loops from position U33 to C44 and from position G85 to A90 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L020_0000_79dd9fdecadac779abdd899a08d8debd.png"
] | open_ended | life | en |
L020/0001 | You are a professional biologist, andy you are skilled at reading and analyzing RNA secondary structure pictures. Please generate a natural language description for the given RNA <image>, find the length, describe the internal loops and hairpin loops of the RNA and point out their start and terminate position. | [] | The RNA is comprised of 201 bases in total, which has five internal loops from position U20 to A22 and U106 to U107; position U27 to G28 and position U100 to G101; position G32 to C41; position C80 to C84; position U119 to C123 and position U143 to U147; and it also has three hairpin loops from position U67 to U70 and ... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L020_0001_8e986c3fc94964f6f64232ef02c29633.png"
] | open_ended | life | en |
L020/0002 | You are a professional biologist, andy you are skilled at reading and analyzing RNA secondary structure pictures. Please generate a natural language description for the given RNA <image>, find the length, describe the internal loops and hairpin loops of the RNA and point out their start and terminate position. | [] | The RNA is comprised of 68 bases in total, which has one internal loop from position A28 to U29 and position A41 to U42; and it also has one hairpin loop from position U31 to U39. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L020_0002_9f64195f9863edc9e44b7cbef4c5739e.png"
] | open_ended | life | en |
L020/0003 | You are a professional biologist, andy you are skilled at reading and analyzing RNA secondary structure pictures. Please generate a natural language description for the given RNA <image>, find the length, describe the internal loops and hairpin loops of the RNA and point out their start and terminate position. | [] | The RNA is comprised of 115 bases in total, which has three internal loops from position G9 to A10 and position A46 to A47; position A15 to A17 and position A39 to C41; position G70 to U71 and position A79 to A80; and it also has three hairpin loops from position U24 to U32; from position G73 to A77 and from position T... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L020_0003_8c8da09d5507b687c5a29475a295e6f2.png"
] | open_ended | life | en |
L020/0004 | You are a professional biologist, andy you are skilled at reading and analyzing RNA secondary structure pictures. Please generate a natural language description for the given RNA <image>, find the length, describe the internal loops and hairpin loops of the RNA and point out their start and terminate position. | [] | The RNA is comprised of 35 bases in total, which has one internal loop from position C5 to U9 and position U21 to G24, and it also has one hairpin loop from position G13 to A16. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L020_0004_a3594b6a3929d1c63c6212bc7e505652.png"
] | open_ended | life | en |
L020/0005 | You are a professional biologist, andy you are skilled at reading and analyzing RNA secondary structure pictures. Please generate a natural language description for the given RNA <image>, find the length, describe the internal loops and hairpin loops of the RNA and point out their start and terminate position. | [] | The RNA is comprised of 76 bases in total, which has four internal loops from position A5 to A21; position G25 to A29 and A52 to A55; position C32 to C33; position A64 to C70, and it also has one hairpin loop from position C36 to G46. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L020_0005_b3bae017337288abeb96659c8751f828.png"
] | open_ended | life | en |
L020/0006 | You are a professional biologist, andy you are skilled at reading and analyzing RNA secondary structure pictures. Please generate a natural language description for the given RNA <image>, find the length, describe the internal loops and hairpin loops of the RNA and point out their start and terminate position. | [] | The RNA is comprised of 60 bases in total, which has one internal loop from position G11 to U14 and position A46 to U48, and it also has one hairpin loop from position G22 to G38. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L020_0006_091030876171b8e620548f2d16499785.png"
] | open_ended | life | en |
L020/0007 | You are a professional biologist, andy you are skilled at reading and analyzing RNA secondary structure pictures. Please generate a natural language description for the given RNA <image>, find the length, describe the internal loops and hairpin loops of the RNA and point out their start and terminate position. | [] | The RNA is comprised of 72 bases in total, which has only a hairpin loop from position A7 to C66. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L020_0007_e570e47962c4ce7d7470146387409531.png"
] | open_ended | life | en |
L020/0008 | You are a professional biologist, andy you are skilled at reading and analyzing RNA secondary structure pictures. Please generate a natural language description for the given RNA <image>, find the length, describe the internal loops and hairpin loops of the RNA and point out their start and terminate position. | [] | The RNA is comprised of 70 bases in total, which has only a hairpin loop from position U5 to A64. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L020_0008_2d399cec9b9ec97411fcfc112973e331.png"
] | open_ended | life | en |
L020/0009 | You are a professional biologist, andy you are skilled at reading and analyzing RNA secondary structure pictures. Please generate a natural language description for the given RNA <image>, find the length, describe the internal loops and hairpin loops of the RNA and point out their start and terminate position. | [] | The RNA is comprised of 60 bases in total, which has two internal loops in position U8 and C50; position C19, and it also has one hairpin loop from position T24 to T35. | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L020_0009_cc0448b28f03713bef48eba3c6d4fc64.png"
] | open_ended | life | en |
L019/0000 | From the molecular structure PDB image <image>, which is from ENZYMATIC MECHANISM OF CREATINE AMIDINOHYDROLASE AS DEDUCED FROM CRYSTAL STRUCTURES, please give description of this structure in one paragraph | [] | The molecular structure depicted in the PDB image represents creatine amidinohydrolase, a protein enzyme involved in the enzymatic mechanism of creatine metabolism. The structure is visualized using a ribbon diagram, where different colors represent distinct chains or subunits of the protein. In this case, two main sub... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L019_0000_36cc460084784c4d33633626296aba64.png"
] | open_ended | life | en |
L019/0001 | From the molecular structure PDB image <image>, which is from Crystal structure of IsdH linker-NEAT3 bound to a nanobody (VHH), please give description of this structure in one paragraph | [] | The molecular structure depicted in the PDB image represents the crystal structure of IsdH linker-NEAT3 bound to a nanobody (VHH). The ribbon diagram illustrates two distinct protein components: one colored orange and the other green. The orange subunit, representing the nanobody (VHH), exhibits a compact, globular str... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L019_0001_ea63daa71ac60dbda11b388d0f829676.png"
] | open_ended | life | en |
L019/0002 | From the molecular structure PDB image <image>, which is from SH2 (SRC HOMOLOGY-2) DOMAIN OF HUMAN P56-LCK TYROSINE KINASE COMPLEXED WITH THE 11 RESIDUE PHOSPHOTYROSYL PEPTIDE EPQPYEEIPIYL, please give description of this structure in one paragraph | [] | The SH2 (SRC Homology 2) domain of human P56-LCK tyrosine kinase complexed with the phosphotyrosyl peptide EPQPYEEIPIYL plays a crucial role in signal transduction. This domain specifically binds to phosphorylated tyrosine residues, with the pTyr in the peptide fitting into a hydrophobic pocket of the SH2 domain, facil... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L019_0002_e3475ae3472de5584f343b1657a7b157.png"
] | open_ended | life | en |
L019/0003 | From the molecular structure PDB image <image>, which is from crystal structure of epigallocatechin binding with alpha-lactalbumin, please give description of this structure in one paragraph | [] | The provided image displays the crystal structure of alpha-lactalbumin in complex with epigallocatechin (EGC). The alpha-lactalbumin protein is depicted as a teal ribbon diagram, illustrating its folded secondary structural elements, including alpha-helices and beta-sheets, which create a specific three-dimensional con... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L019_0003_ad635cce982c8d251b840b5af220d256.png"
] | open_ended | life | en |
L019/0004 | From the molecular structure PDB image <image>, which is from crystal structure of human cyclic GMP-AMP synthase in complex with 5-(4-fluorophenyl)-2-methylpyrazole-3-carboxylic acid, please give description of this structure in one paragraph | [] | this image displays the crystal structure of human cyclic GMP-AMP synthase (cGAS) in complex with 5-(4-fluorophenyl)-2-methylpyrazole-3-carboxylic acid. Human cGAS is a protein crucial for innate immunity, acting as a sensor for cytosolic DNA. The structure reveals a typical nucleotidyl transferase fold, characterized ... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L019_0004_09de6dd140d462ab5f2de068a7f74112.png"
] | open_ended | life | en |
L019/0005 | From the molecular structure PDB image <image>, which is from Crystal Structure of human FABP4 in complex with 2-(5,6,7,8,9,10-hexahydrobenzo[8]annulen-3-yl)acetic acid, please give description of this structure in one paragraph | [] | The provided image displays the crystal structure of human Fatty Acid Binding Protein 4 (FABP4) in complex with the ligand 2-(5,6,7,8,9,10-hexahydrobenzoannulen-3-yl)acetic acid. The FABP4 protein, depicted in teal, adopts a characteristic β-barrel fold, composed of ten antiparallel β-strands that form a clam-shell lik... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L019_0005_5e57d2fbfcdf424fefc2f129982df092.png"
] | open_ended | life | en |
L019/0006 | From the molecular structure PDB image <image>, which is from Structure of caprine serum albumin in P1 space group, please give description of this structure in one paragraph | [] | This image displays the crystal structure of caprine serum albumin in the P1 space group. The protein is a globular protein predominantly composed of α-helices (represented by the teal ribbon structures), which are tightly packed and interconnected by shorter loop regions, forming a complex three-dimensional conformati... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L019_0006_1de6d9d3ab0be5b3b6620f9fe707b421.png"
] | open_ended | life | en |
L019/0007 | From the molecular structure PDB image <image>, which is from Crystal structure of H. pylori isoleucyl-tRNA synthetase (HpIleRS) in complex with Ile-AMP, please give description of this structure in one paragraph | [] | This image shows the crystal structure of Helicobacter pylori isoleucyl-tRNA synthetase (HpIleRS) bound to its cognate ligand, isoleucyl-adenylate (Ile-AMP). The protein, depicted in teal, exhibits a complex, multi-domain architecture characterized by a combination of α-helical and β-sheet secondary structures, interco... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L019_0007_8cb6c9e8ee4d9713e144f68523a79928.png"
] | open_ended | life | en |
L019/0008 | From the molecular structure PDB image <image>, which is from SARS-Cov2 Main protease in complex with inhibitor CDD-1845, please give description of this structure in one paragraph | [] | This image displays the crystal structure of the SARS-CoV-2 Main protease (Mpro, also known as 3CLpro) in a dimeric form, with one monomer shown in orange and the other in teal. Each monomer exhibits a complex fold composed primarily of β-barrels and α-helices, forming a distinct active site cleft. Bound within the act... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L019_0008_6ee42cd57b2a75d7ce52e31cf3062f85.png"
] | open_ended | life | en |
L019/0009 | From the molecular structure PDB image <image>, which is from Crystal structure of Terrestrivirus Inositol pyrophosphatase kinase in complex with ADP and scyllo-IP6, please give description of this structure in one paragraph | [] | This image shows the crystal structure of Terrestrivirus Inositol pyrophosphatase kinase, depicted in teal, in complex with two ligands: ADP (adenosine diphosphate) and scyllo-IP6 (scyllo-inositol hexakisphosphate). The protein adopts a globular fold characterized by a mixture of α-helices and β-sheets, forming a bindi... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L019_0009_348940deb429e87fa79ba931e5c31b24.png"
] | open_ended | life | en |
L019/0010 | From the molecular structure PDB image <image>, which is from Crystal structure of Shewanella benthica Group 1 truncated hemoglobin Y34F C51S C71S variant (cyanomet), please give description of this structure in one paragraph | [] | This image displays the crystal structure of a variant (Y34F C51S C71S) of Shewanella benthica Group 1 truncated hemoglobin in its cyanomet form, arranged as a tetramer. The structure consists of four individual protein subunits, each depicted in a different color (teal, slate blue, magenta, and orange), and all adopti... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L019_0010_145336c471bb33a20444ab39e93de133.png"
] | open_ended | life | en |
L019/0011 | From the molecular structure PDB image <image>, which is from a peptide receptor complex structure, please give description of this structure in one paragraph | [] | This image illustrates a multi-component peptide receptor complex, showcasing distinct protein domains or subunits interacting with each other. The teal-colored portion, characterized by a bundle of transmembrane alpha-helices, represents the receptor itself, and notably, a small peptide or ligand molecule (shown in or... | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L019_0011_6972c92122d25cf10a374e95b807c49d.png"
] | open_ended | life | en |
L005/0000 | From the compound's MS/MS spectrum <image>, determine the number of chlorine atoms based on isotope pattern and other compound information in the spectrum. | [] | 1 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L005_0000_fe87e31de1d5a00d7bd315c46ba760c3.png"
] | exact_match | life | en |
L005/0001 | From the compound's MS/MS spectrum <image>, determine the number of sulfur atoms based on isotope pattern and other compound information in the spectrum. | [] | 1 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L005_0001_0b7370cee4f8ebdb216c1ad238ef27f4.png"
] | exact_match | life | en |
L005/0002 | From the compound's MS/MS spectrum <image>, determine the number of chlorine atoms based on isotope pattern and other compound information in the spectrum. | [] | 0 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L005_0002_a7556f24d9065b2cddb3da8b9bd44429.png"
] | exact_match | life | en |
L005/0003 | From the compound's MS/MS spectrum <image>, determine the number of chlorine atoms based on isotope pattern and other compound information in the spectrum. | [] | 0 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L005_0003_8096849a6ef437676acae87921f36c36.png"
] | exact_match | life | en |
L005/0004 | From the compound's MS/MS spectrum <image>, determine the number of sulfur atoms based on isotope pattern and other compound information in the spectrum. | [] | 0 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L005_0004_43ddfaf9946f43815abf1ebe39525489.png"
] | exact_match | life | en |
L005/0005 | From the compound's MS/MS spectrum <image>, determine the number of chlorine atoms based on isotope pattern and other compound information in the spectrum. | [] | 1 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L005_0005_150538d3068cbf5dfb60081638a789e3.png"
] | exact_match | life | en |
L005/0006 | From the compound's MS/MS spectrum <image>, determine the number of chlorine atoms based on isotope pattern and other compound information in the spectrum. | [] | 2 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L005_0006_039ef4bf4b7525b9e2ced64bb382b8bc.png"
] | exact_match | life | en |
L005/0007 | From the compound's MS/MS spectrum <image>, determine the number of nitrogen atoms based on isotope pattern and other compound information in the spectrum. | [] | 5 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L005_0007_ba1d358b7cb8d34dab5ae0f5c346ee60.png"
] | exact_match | life | en |
L005/0008 | From the compound's MS/MS spectrum <image>, determine the number of chlorine atoms based on isotope pattern and other compound information in the spectrum. | [] | 1 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L005_0008_e2c2a20a2c75da61a167f0817cf8e3f2.png"
] | exact_match | life | en |
L005/0009 | From the compound's MS/MS spectrum <image>, determine the number of fluorine atoms based on isotope pattern and other compound information in the spectrum. | [] | 1 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L005_0009_c21ceede4ba4c8b53827af312e972e24.png"
] | exact_match | life | en |
L006/0000 | From the compound's MS/MS spectrum <image>, infer the elemental composition of the compound based on isotope patterns and other compound information present in the spectrum | [] | C, H, O, N, Cl | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L006_0000_fe87e31de1d5a00d7bd315c46ba760c3.png"
] | exact_match | life | en |
L006/0001 | From the compound's MS/MS spectrum <image>, infer the elemental composition of the compound based on isotope patterns and other compound information present in the spectrum | [] | C, H, O, S | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L006_0001_0b7370cee4f8ebdb216c1ad238ef27f4.png"
] | exact_match | life | en |
L006/0002 | From the compound's MS/MS spectrum <image>, infer the elemental composition of the compound based on isotope patterns and other compound information present in the spectrum | [] | C, H, O | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L006_0002_a7556f24d9065b2cddb3da8b9bd44429.png"
] | exact_match | life | en |
L006/0003 | From the compound's MS/MS spectrum <image>, infer the elemental composition of the compound based on isotope patterns and other compound information present in the spectrum | [] | C, H, O | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L006_0003_8096849a6ef437676acae87921f36c36.png"
] | exact_match | life | en |
L006/0004 | From the compound's MS/MS spectrum <image>, infer the elemental composition of the compound based on isotope patterns and other compound information present in the spectrum | [] | C, H, O | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L006_0004_43ddfaf9946f43815abf1ebe39525489.png"
] | exact_match | life | en |
L006/0005 | From the compound's MS/MS spectrum <image>, infer the elemental composition of the compound based on isotope patterns and other compound information present in the spectrum | [] | C, H, N, Cl | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L006_0005_150538d3068cbf5dfb60081638a789e3.png"
] | exact_match | life | en |
L006/0006 | From the compound's MS/MS spectrum <image>, infer the elemental composition of the compound based on isotope patterns and other compound information present in the spectrum | [] | C, H, O, N, Cl | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L006_0006_039ef4bf4b7525b9e2ced64bb382b8bc.png"
] | exact_match | life | en |
L006/0007 | From the compound's MS/MS spectrum <image>, infer the elemental composition of the compound based on isotope patterns and other compound information present in the spectrum | [] | C, H, O, N | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L006_0007_ba1d358b7cb8d34dab5ae0f5c346ee60.png"
] | exact_match | life | en |
L006/0008 | From the compound's MS/MS spectrum <image>, infer the elemental composition of the compound based on isotope patterns and other compound information present in the spectrum | [] | C, H, O, Cl | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L006_0008_e2c2a20a2c75da61a167f0817cf8e3f2.png"
] | exact_match | life | en |
L006/0009 | From the compound's MS/MS spectrum <image>, infer the elemental composition of the compound based on isotope patterns and other compound information present in the spectrum | [] | C, H, O, N, F | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L006_0009_c21ceede4ba4c8b53827af312e972e24.png"
] | exact_match | life | en |
L007/0000 | This is a multiple-choice question with only one correct answer. Based on given mass spectrum <image>, select the molecular structure that best matches it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>"
] | B | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0000_fe87e31de1d5a00d7bd315c46ba760c3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0000_A_5402677babdb4c2e030b1aa85cf1ccce.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0000_B_56bfe... | mcq | life | en |
L007/0001 | This is a multiple-choice question with only one correct answer. Based on given mass spectrum <image>, select the molecular structure that best matches it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>"
] | C | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0001_0b7370cee4f8ebdb216c1ad238ef27f4.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0001_A_c0331e6a25250eed646c43f6e34024b0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0001_B_56bfe... | mcq | life | en |
L007/0002 | This is a multiple-choice question with only one correct answer. Based on given mass spectrum <image>, select the molecular structure that best matches it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>"
] | E | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0002_a7556f24d9065b2cddb3da8b9bd44429.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0002_A_9aa94eedce60de053990b75abc5faed3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0002_B_3a6b0... | mcq | life | en |
L007/0003 | This is a multiple-choice question with only one correct answer. Based on given mass spectrum <image>, select the molecular structure that best matches it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>"
] | F | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0003_8096849a6ef437676acae87921f36c36.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0003_A_d975d5eeae796a56bdeebbb573b4f241.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0003_B_2a103... | mcq | life | en |
L007/0004 | This is a multiple-choice question with only one correct answer. Based on given mass spectrum <image>, select the molecular structure that best matches it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>"
] | A | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0004_43ddfaf9946f43815abf1ebe39525489.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0004_A_5b57208b7b159c42dd3482e35e235804.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0004_B_54026... | mcq | life | en |
L007/0005 | This is a multiple-choice question with only one correct answer. Based on given mass spectrum <image>, select the molecular structure that best matches it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>"
] | B | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0005_150538d3068cbf5dfb60081638a789e3.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0005_A_c0331e6a25250eed646c43f6e34024b0.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0005_B_e039f... | mcq | life | en |
L007/0006 | This is a multiple-choice question with only one correct answer. Based on given mass spectrum <image>, select the molecular structure that best matches it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>"
] | C | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0006_039ef4bf4b7525b9e2ced64bb382b8bc.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0006_A_05b7f34f9b541a3920e45f420ae38a5b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0006_B_d975d... | mcq | life | en |
L007/0007 | This is a multiple-choice question with only one correct answer. Based on given mass spectrum <image>, select the molecular structure that best matches it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>"
] | G | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0007_ba1d358b7cb8d34dab5ae0f5c346ee60.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0007_A_05b7f34f9b541a3920e45f420ae38a5b.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0007_B_0dc4c... | mcq | life | en |
L007/0008 | This is a multiple-choice question with only one correct answer. Based on given mass spectrum <image>, select the molecular structure that best matches it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>"
] | A | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0008_e2c2a20a2c75da61a167f0817cf8e3f2.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0008_A_b6b785ff18271d82a1fac6e703109d42.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0008_B_c511e... | mcq | life | en |
L007/0009 | This is a multiple-choice question with only one correct answer. Based on given mass spectrum <image>, select the molecular structure that best matches it. | [
"(A) <image>",
"(B) <image>",
"(C) <image>",
"(D) <image>",
"(E) <image>",
"(F) <image>",
"(G) <image>"
] | G | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0009_c21ceede4ba4c8b53827af312e972e24.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0009_A_c877bab275b079b225590f7203516a68.png",
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L007_0009_B_b6b78... | mcq | life | en |
L014/0000 | Based on the RNA secondary structure diagram <image>, which of the following structures might the RNA contain? (Multiple choices) | [
"(A) stem",
"(B) Hairpin loop",
"(C) Interior loop",
"(D) bulge loop",
"(E) Multi-branched loop",
"(F) Pseudoknot"
] | ['A', 'B', 'C', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L014_0000_160df97a486056f7868040c1fa6715fe.png"
] | mcq | life | en |
L014/0001 | Based on the RNA secondary structure diagram <image>, which of the following structures might the RNA contain? (Multiple choices) | [
"(A) stem",
"(B) Hairpin loop",
"(C) Interior loop",
"(D) bulge loop",
"(E) Multi-branched loop",
"(F) Pseudoknot"
] | ['A', 'B', 'E', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L014_0001_1fefe842779cecbdad46d823bb5c01b8.png"
] | mcq | life | en |
L014/0002 | Based on the RNA secondary structure diagram <image>, which of the following structures might the RNA contain? (Multiple choices) | [
"(A) stem",
"(B) Hairpin loop",
"(C) Interior loop",
"(D) bulge loop",
"(E) Multi-branched loop",
"(F) Pseudoknot"
] | ['A', 'B', 'C', 'D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L014_0002_d1fabf619add4f41ef205897e9232736.png"
] | mcq | life | en |
L014/0003 | Based on the RNA secondary structure diagram <image>, which of the following structures might the RNA contain? (Multiple choices) | [
"(A) stem",
"(B) Hairpin loop",
"(C) Interior loop",
"(D) bulge loop",
"(E) Multi-branched loop",
"(F) Pseudoknot"
] | ['A', 'B', 'C', 'D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L014_0003_791989b6398e60901c17fa86f861aea1.png"
] | mcq | life | en |
L014/0004 | Based on the RNA secondary structure diagram <image>, which of the following structures might the RNA contain? (Multiple choices) | [
"(A) stem",
"(B) Hairpin loop",
"(C) Interior loop",
"(D) bulge loop",
"(E) Multi-branched loop",
"(F) Pseudoknot"
] | ['A', 'B', 'C', 'D', 'E', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L014_0004_92393731237f2d6d66002074bc31a65d.png"
] | mcq | life | en |
L014/0005 | Based on the RNA secondary structure diagram <image>, which of the following structures might the RNA contain? (Multiple choices) | [
"(A) stem",
"(B) Hairpin loop",
"(C) Interior loop",
"(D) bulge loop",
"(E) Multi-branched loop",
"(F) Pseudoknot"
] | ['A', 'B', 'C', 'E', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L014_0005_636be9a4e82fb4ae714e3b75d2b9cdab.png"
] | mcq | life | en |
L014/0006 | Based on the RNA secondary structure diagram <image>, which of the following structures might the RNA contain? (Multiple choices) | [
"(A) stem",
"(B) Hairpin loop",
"(C) Interior loop",
"(D) bulge loop",
"(E) Multi-branched loop",
"(F) Pseudoknot"
] | ['A', 'B', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L014_0006_526df6e1a8302fabde97b701082e354b.png"
] | mcq | life | en |
L014/0007 | Based on the RNA secondary structure diagram <image>, which of the following structures might the RNA contain? (Multiple choices) | [
"(A) stem",
"(B) Hairpin loop",
"(C) Interior loop",
"(D) bulge loop",
"(E) Multi-branched loop",
"(F) Pseudoknot"
] | ['A', 'B', 'C', 'D', 'E', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L014_0007_8e0f85feec6977e4075544bdfa4c0af2.png"
] | mcq | life | en |
L014/0008 | Based on the RNA secondary structure diagram <image>, which of the following structures might the RNA contain? (Multiple choices) | [
"(A) stem",
"(B) Hairpin loop",
"(C) Interior loop",
"(D) bulge loop",
"(E) Multi-branched loop",
"(F) Pseudoknot"
] | ['A', 'B', 'C', 'D', 'E', 'F'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L014_0008_db7d72a6af426585e02ebff52a07dbf9.png"
] | mcq | life | en |
L014/0009 | Based on the RNA secondary structure diagram <image>, which of the following structures might the RNA contain? (Multiple choices) | [
"(A) stem",
"(B) Hairpin loop",
"(C) Interior loop",
"(D) bulge loop",
"(E) Multi-branched loop",
"(F) Pseudoknot"
] | ['A', 'B', 'C', 'D'] | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L014_0009_c307c032cf276201e7cdc1c281bf9209.png"
] | mcq | life | en |
L015/0000 | Examine the given RNA secondary structure diagram <image>. How many stem regions are present in the structure? | [] | 6 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L015_0000_160df97a486056f7868040c1fa6715fe.png"
] | exact_match | life | en |
L015/0001 | Examine the given RNA secondary structure diagram <image>. How many stem regions are present in the structure? | [] | 3 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L015_0001_1fefe842779cecbdad46d823bb5c01b8.png"
] | exact_match | life | en |
L015/0002 | Examine the given RNA secondary structure diagram <image>. How many stem regions are present in the structure? | [] | 6 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L015_0002_d1fabf619add4f41ef205897e9232736.png"
] | exact_match | life | en |
L015/0003 | Examine the given RNA secondary structure diagram <image>. How many stem regions are present in the structure? | [] | 5 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L015_0003_791989b6398e60901c17fa86f861aea1.png"
] | exact_match | life | en |
L015/0004 | Examine the given RNA secondary structure diagram <image>. How many stem regions are present in the structure? | [] | 15 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L015_0004_92393731237f2d6d66002074bc31a65d.png"
] | exact_match | life | en |
L015/0005 | Examine the given RNA secondary structure diagram <image>. How many stem regions are present in the structure? | [] | 4 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L015_0005_636be9a4e82fb4ae714e3b75d2b9cdab.png"
] | exact_match | life | en |
L015/0006 | Examine the given RNA secondary structure diagram <image>. How many stem regions are present in the structure? | [] | 2 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L015_0006_526df6e1a8302fabde97b701082e354b.png"
] | exact_match | life | en |
L015/0007 | Examine the given RNA secondary structure diagram <image>. How many stem regions are present in the structure? | [] | 10 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L015_0007_8e0f85feec6977e4075544bdfa4c0af2.png"
] | exact_match | life | en |
L015/0008 | Examine the given RNA secondary structure diagram <image>. How many stem regions are present in the structure? | [] | 17 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L015_0008_db7d72a6af426585e02ebff52a07dbf9.png"
] | exact_match | life | en |
L015/0009 | Examine the given RNA secondary structure diagram <image>. How many stem regions are present in the structure? | [] | 8 | [
"/fs-computility/ai4sData/earth-shared/SFE/sfe_dataset/v0/images/L015_0009_c307c032cf276201e7cdc1c281bf9209.png"
] | exact_match | life | en |
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.