Entry ID | Original Release date | Data summary | Entry Title | Citation Title | Authors |
---|---|---|---|---|---|
51885 | 2023-12-13 | Chemical Shifts: 1 set |
Structure, dynamics and stability of the smallest and most complex 71 protein knot |
Structure, dynamics and stability of the smallest and most complex 71 protein knot
|
Chih-Hsuan Lai, Jing-Siou Huang, Kai-Fa Huang, Manoj K Sriramouju, Min-Feng Hsu, Shang-Te Danny Hsu, Tzu-Ping Ko, Yun-Ru Chen |
51380 | 2022-07-12 | Chemical Shifts: 1 set |
1H, 13C and 15N Backbone Chemical Shift Assignments of GTP-bound Rab3a |
Molecular and Functional Interactions of Alpha-Synuclein with Rab3a
|
David Eliezer, Guohua Lv, Myung Soo Ko, Tapojyoti Das |
51279 | 2022-06-24 | Chemical Shifts: 1 set |
Chemical shift assignment of I85L myristoylated Hisactophilin at pH 6.2 |
A fine balance of hydrophobic-electrostatic communication pathways in a pH-switching protein
|
A Josh Wand, Anna Schaefer, Aron Broom, Brian Fuglestad, Charles L Brooks, Christopher A Leo, Dalia Naser, Duncan WS MacKenzie, Eforsini Artikis, Elisa Tran, Elizabeth M Meiering, Julia Steckner, Martin TJ Smith, Mikaela Q Ney, Purnak Shah, Travis Ko |
51278 | 2022-06-24 | Chemical Shifts: 1 set |
Chemical shift assignment of I85L non-myristoylated Hisactophilin at pH 6.2 |
A fine balance of hydrophobic-electrostatic communication pathways in a pH-switching protein
|
A Josh Wand, Anna Schaefer, Aron Broom, Brian Fuglestad, Charles L Brooks, Christopher A Leo, Dalia Naser, Duncan WS MacKenzie, Eforsini Artikis, Elisa Tran, Elizabeth M Meiering, Julia Steckner, Martin TJ Smith, Mikaela Q Ney, Purnak Shah, Travis Ko |
51277 | 2022-06-24 | Chemical Shifts: 1 set |
Chemical shift assignment of LLL myristoylated Hisactophilin at pH 6.2 |
A fine balance of hydrophobic-electrostatic communication pathways in a pH-switching protein
|
A Josh Wand, Anna Schaefer, Aron Broom, Brian Fuglestad, Charles L Brooks, Christopher A Leo, Dalia Naser, Duncan WS MacKenzie, Eforsini Artikis, Elisa Tran, Elizabeth M Meiering, Julia Steckner, Martin TJ Smith, Mikaela Q Ney, Purnak Shah, Travis Ko |
51276 | 2022-06-24 | Chemical Shifts: 1 set |
Chemical shift assignment of LLL non-myristoylated Hisactophilin at pH 6.2 |
A fine balance of hydrophobic-electrostatic communication pathways in a pH-switching protein
|
A Josh Wand, Anna Schaefer, Aron Broom, Brian Fuglestad, Charles L Brooks, Christopher A Leo, Dalia Naser, Duncan WS MacKenzie, Eforsini Artikis, Elisa Tran, Elizabeth M Meiering, Julia Steckner, Martin TJ Smith, Mikaela Q Ney, Purnak Shah, Travis Ko |
51274 | 2022-06-24 | Chemical Shifts: 1 set |
Chemical shift assignment of LLLL myristoylated Hisactophilin at pH 7.7 |
A fine balance of hydrophobic-electrostatic communication pathways in a pH-switching protein
|
A Josh Wand, Anna Schaefer, Aron Broom, Brian Fuglestad, Charles L Brooks, Christopher A Leo, Dalia Naser, Duncan WS MacKenzie, Eforsini Artikis, Elisa Tran, Elizabeth M Meiering, Julia Steckner, Martin TJ Smith, Mikaela Q Ney, Purnak Shah, Travis Ko |
51273 | 2022-06-24 | Chemical Shifts: 1 set |
Chemical shift assignment of I85L non-myristoylated Hisactophilin at pH 7.7 |
A fine balance of hydrophobic-electrostatic communication pathways in a pH-switching protein
|
A Josh Wand, Anna Schaefer, Aron Broom, Brian Fuglestad, Charles L Brooks, Christopher A Leo, Dalia Naser, Duncan WS MacKenzie, Eforsini Artikis, Elisa Tran, Elizabeth M Meiering, Julia Steckner, Martin TJ Smith, Mikaela Q Ney, Purnak Shah, Travis Ko |
51272 | 2022-06-24 | Chemical Shifts: 1 set |
Chemical shift assignment of I85L myristoylated Hisactophilin at pH 7.7 |
A fine balance of hydrophobic-electrostatic communication pathways in a pH-switching protein
|
A Josh Wand, Anna Schaefer, Aron Broom, Brian Fuglestad, Charles L Brooks, Christopher A Leo, Dalia Naser, Duncan WS MacKenzie, Eforsini Artikis, Elisa Tran, Elizabeth M Meiering, Julia Steckner, Martin TJ Smith, Mikaela Q Ney, Purnak Shah, Travis Ko |
51271 | 2022-06-24 | Chemical Shifts: 1 set |
Chemical shift assignment of WT non-myristoylated Hisactophilin at pH 7.7 |
A fine balance of hydrophobic-electrostatic communication pathways in a pH-switching protein
|
A Josh Wand, Anna Schaefer, Aron Broom, Brian Fuglestad, Charles L Brooks, Christopher A Leo, Dalia Naser, Duncan WS MacKenzie, Eforsini Artikis, Elisa Tran, Elizabeth M Meiering, Julia Steckner, Martin TJ Smith, Mikaela Q Ney, Purnak Shah, Travis Ko |
51270 | 2022-06-24 | Chemical Shifts: 1 set |
Chemical shift assignment of WT myristoylated Hisactophilin at pH 7.7 |
A fine balance of hydrophobic-electrostatic communication pathways in a pH-switching protein
|
A Josh Wand, Anna Schaefer, Aron Broom, Brian Fuglestad, Charles L Brooks, Christopher A Leo, Dalia Naser, Duncan WS MacKenzie, Eforsini Artikis, Elisa Tran, Elizabeth M Meiering, Julia Steckner, Martin TJ Smith, Mikaela Q Ney, Purnak Shah, Travis Ko |
51275 | 2022-06-24 | Chemical Shifts: 1 set |
Chemical shift assignment of LLL non-myristoylated Hisactophilin at pH 7.7 |
A fine balance of hydrophobic-electrostatic communication pathways in a pH-switching protein
|
A Josh Wand, Anna Schaefer, Aron Broom, Brian Fuglestad, Charles L Brooks, Christopher A Leo, Dalia Naser, Duncan WS MacKenzie, Eforsini Artikis, Elisa Tran, Elizabeth M Meiering, Julia Steckner, Martin TJ Smith, Mikaela Q Ney, Purnak Shah, Travis Ko |
51280 | 2022-06-24 | Chemical Shifts: 1 set |
Chemical shift assignment of WT non-myristoylated Hisactophilin at pH 6.2 |
A fine balance of hydrophobic-electrostatic communication pathways in a pH-switching protein
|
A Josh Wand, Anna Schaefer, Aron Broom, Brian Fuglestad, Charles L Brooks, Christopher A Leo, Dalia Naser, Duncan WS MacKenzie, Eforsini Artikis, Elisa Tran, Elizabeth M Meiering, Julia Steckner, Martin TJ Smith, Mikaela Q Ney, Purnak Shah, Travis Ko |
51269 | 2022-06-24 | Chemical Shifts: 1 set |
Chemical shift assignment of WT myristoylated Hisactophilin at pH 6.2 |
A fine balance of hydrophobic-electrostatic communication pathways in a pH-switching protein
|
A Josh Wand, Anna Schaefer, Aron Broom, Brian Fuglestad, Charles L Brooks, Christopher A Leo, Dalia Naser, Duncan WS MacKenzie, Eforsini Artikis, Elisa Tran, Elizabeth M Meiering, Julia Steckner, Martin TJ Smith, Mikaela Q Ney, Purnak Shah, Travis Ko |
34677 | 2022-11-28 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution structure of an intramolecular RNA G-quadruplex formed by the 6A mutant from a 22mer guanine-rich sequence within the 5'UTR of BCL-2 proto-oncogene |
Solution structure of an intramolecular RNA G-quadruplex formed by the 6A mutant from a 22mer guanine-rich sequence within the 5'UTR of BCL-2 proto-oncogene
|
R KO Sigel, S Johannsen, S Jurt, T Falk, Z Wang |
34676 | 2022-11-08 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution structure of an intramolecular RNA G-quadruplex formed by the 6A8A17U mutant from a 22mer guanine-rich sequence within the 5'UTR of BCL-2 proto-oncogene |
Solution structure of an intramolecular RNA G-quadruplex formed by the 6A8A17U mutant from a 22mer guanine-rich sequence within the 5'UTR of BCL-2 proto-oncogene
|
A Dominguez-Martin, R KO Sigel, S Johannsen, S Jurt, Z Wang |
34674 | 2022-11-08 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution structure of an intramolecular RNA G-quadruplex formed by the 6A8U17U mutant from a 22mer guanine-rich sequence within the 5'UTR of BCL-2 proto onco-gene |
Solution structure of an intramolecular RNA G-quadruplex formed by the 6A8U17U mutant from a 22mer guanine-rich sequence within the 5'UTR of BCL-2 proto onco-gene
|
A Dominguez-Martin, R KO Sigel, S Johannsen, S Jurt, Z Wang |
51054 | 2021-10-01 | Chemical Shifts: 1 set |
MS3494 |
A periplasmic cinched protein is required for siderophore secretion and virulence of Mycobacterium tuberculosis
|
Alexander E Aleshin, David C Young, D Branch B Moody, Dominik Herrmann, Francesca M Marassi, Gino Cingolani, James E Kent, Jamil S Saad, Lei Zhang, Meredith Whitaker, Michael Niederweis, Sabine Ehrt, Ying-Hui H Ko |
28063 | 2021-07-16 | Chemical Shifts: 1 set |
Backbone 1H, 13C, and 15N Chemical shift Assignments for SWIRM domain of BAF155 and RPT1 of hSNF5 |
A Coil-to-Helix Transition Serves as a Binding Motif for hSNF5 and BAF155 Interaction
|
Gye-Young Y Park, Iktae Kim, Jae-Hyun H Park, Jeongmin Han, Jeong-Yong Y Suh, Ji-Hye H Yun, Jooyoung Lee, Keehyoung Joo, Kenji Mizutani, Kyoung-Seok S Ryu, Rho Hyun H Seong, Sam-Young Y Park, Taehee Kim, Weontae Lee, Yoon-Joo J Ko |
28062 | 2021-07-16 | Chemical Shifts: 1 set |
Backbone 1H, 13C, and 15N Chemical Shift Assignments for RPT1 of hSNF5 and SWIRM of BAF155 |
A Coil-to-Helix Transition Serves as a Binding Motif for hSNF5 and BAF155 Interaction
|
Gye-Young Y Park, Iktae Kim, Jae-Hyun H Park, Jeongmin Han, Jeong-Yong Y Suh, Ji-Hye H Yun, Jooyoung Lee, Keehyoung Joo, Kenji Mizutani, Kyoung-Seok S Ryu, Rho Hyun H Seong, Sam-Young Y Park, Taehee Kim, Weontae Lee, Yoon-Joo J Ko |
28064 | 2021-07-16 | Chemical Shifts: 1 set |
Solution structure of hSNF5 RPT1 domain |
A Coil-to-Helix Transition Serves as a Binding Motif for hSNF5 and BAF155 Interaction
|
Gye-Young Y Park, Iktae Kim, Jae-Hyun H Park, Jeongmin Han, Jeong-Yong Y Suh, Ji-Hye H Yun, Jooyoung Lee, Keehyoung Joo, Kenji Mizutani, Kyoung-Seok S Ryu, Rho Hyun H Seong, Sam-Young Y Park, Taehee Kim, Weontae Lee, Yoon-Joo J Ko |
34280 | 2018-06-07 | Chemical Shifts: 1 set |
Tc-DNA/DNA duplex |
NMR solution structure of tricyclo-DNA containing duplexes: insight into enhanced thermal stability and nuclease resistance
|
A Istrate, C Leumann, R KO Sigel, S Johannsen |
34277 | 2018-06-04 | Chemical Shifts: 1 set |
tc-DNA/tc-DNA duplex |
NMR solution structure of tricyclo-DNA containing duplexes: insight into enhanced thermal stability and nuclease resistance
|
A Istrate, C Leumann, R KO Sigel, S Johannsen |
34276 | 2018-06-07 | Chemical Shifts: 1 set |
Tc-DNA/RNA duplex |
NMR solution structure of tricyclo-DNA containing duplexes: insight into enhanced thermal stability and nuclease resistance
|
A Istrate, C Leumann, R KO Sigel, S Johannsen |
34244 | 2019-10-03 | Chemical Shifts: 1 set |
Concerted dynamics of metallo-base pairs in an A/B-form helical transition (major species) |
Concerted dynamics of metallo-base pairs in an A/B-form helical transition
|
A Karimi, N W Luedtke, O P Schmidt, R KO Sigel, S Johannsen, S Jurt |
34245 | 2019-10-03 | Chemical Shifts: 1 set |
Concerted dynamics of metallo-base pairs in an A/B-form helical transition (minor species) |
Concerted dynamics of metallo-base pairs in an A/B-form helical transition
|
A Karimi, N W Luedtke, O P Schmidt, R KO Sigel, S Johannsen, S Jurt |
34199 | 2018-01-12 | Chemical Shifts: 1 set |
Specific phosphorothioate substitution within domain 6 of a group II intron ribozyme leads to changes in local structure and metal ion binding |
Specific phosphorothioate substitution within domain 6 of a group II intron ribozyme leads to changes in local structure and metal ion binding.
|
E Besic, M C Erat, M Oberhuber, O Zerbe, R KO Sigel, R K Sigel, S Johannsen, T Fox |
27108 | 2017-09-14 | Chemical Shifts: 1 set |
Backbone 1H, 13C, and 15N Chemical Shift Assignments for SH3 domain of Noxa1 |
C-terminal tail of NADPH oxidase organizer 1 (Noxo1) mediates interaction with NADPH oxidase activator (Noxa1) in the NOX1 complex
|
Ji-Hye H Yun, Myeongkyu Kim, Pravesh Shrestha, Weontae Lee, Yoon-Joo J Ko, Yun Soo S Bae |
25154 | 2015-03-23 | Chemical Shifts: 1 set |
Backbone 1H, 15N and 13C resonance assignments of murine STING in complex with DMXAA |
Backbone resonance assignments of the 54 kDa dimeric C-terminal domain of murine STING in complex with DMXAA
|
Chinpan Chen, Je-Le Tu, Jen-Kang Chen, Ko-Hsin Chin, Shan-Ho Chou, Yi-Fen Kao, Yuan-Chao Lou |
19530 | 2014-04-16 | Chemical Shifts: 1 set |
Resonance assignment of RQC domain of human Bloom syndrome protein |
Solution structure of the RecQ C-terminal domain of human Bloom syndrome protein.
|
Byong-Seok Choi, Chin-Ju Park, Junsang Ko, Kyoung-Seok Ryu |
19206 | 2014-02-13 | Chemical Shifts: 1 set |
1H, 13C and 15N backbone and side-chain resonance assignments of a family 36 carbohydrate binding module of Xylanase from Paenibacillus campinasensis |
(1)H, (13)C and (15)N backbone and side-chain resonance assignments of a family 36 carbohydrate binding module of xylanase from Paenibacillus campinasensis.
|
Chi-Fon Chang, Chun-Han Ko, Der-Lii M Tzou, Hao-Ting Chang, Kai-Jay Yang, Pei-Ju Fang, Shing-Jong Huang, Yu-Jen Chen, Yu-Sheng Wang |
19081 | 2014-03-31 | Chemical Shifts: 1 set |
NMR structure of the P4 hairpin of the CPEB3 ribozyme |
Solution structure and metal ion binding sites of the human CPEB3 ribozyme's P4 domain.
|
Magdalena Rowinska-Zyrek, Miriam Skilandat, Roland KO Sigel |
18893 | 2013-12-16 | Chemical Shifts: 1 set |
NMR solution structure of the d3'-hairpin of the group II intron Sc.ai5gamma including EBS1 bound to IBS1 |
NMR structure of the 5'-splice site in the group IIB intron Sc.ai5--conformational requirements for exon-intron recognition.
|
Daniela Kruschel, Miriam Skilandat, Roland KO Sigel |
18894 | 2013-12-16 | Chemical Shifts: 1 set |
NMR solution structure of the d3'-hairpin including the exon binding site 1 (EBS1) of the group II intron Sc.ai5gamma |
NMR structure of the 5'-splice site in the group IIB intron Sc.ai5--conformational requirements for exon-intron recognition.
|
Daniela Kruschel, Miriam Skilandat, Roland KO Sigel |
18844 | 2013-05-30 | Chemical Shifts: 1 set |
ubiquitin-like domain-containing C-terminal domain phosphatase (UBLCP1) |
Solution Structure and Rpn1 Interaction of the UBL Domain of Human RNA Polymerase II C-Terminal Domain Phosphatase.
|
Chaejoon Cheong, Chung-Kyung Lee, Hae-Kap Cheong, Ji-Hye Yun, Jong-Bok Yoon, Sunggeon Ko, Weontae Lee |
18503 | 2013-02-14 | Chemical Shifts: 2 sets |
NMR solution structure of the kappa-zeta region of S.cerevisiae group II intron ai5(gamma) |
The structural stabilization of the three-way junction by Mg(II) represents the first step in the folding of a group II intron.
|
Bernd Knobloch, Cinzia Finazzo, Daniela Donghi, Maria Pechlaner, Roland KO Sigel |
18432 | 2013-04-02 | Chemical Shifts: 1 set |
Solution structure of polymerase-interacting domain of human Rev1 in complex with translesional synthesis polymerase kappa |
Insights into the regulation of human Rev1 for translesion synthesis polymerases revealed by the structural studies on its polymerase-interacting domain.
|
Byong-Seok Choi, Dawei Sun, Dinan Liu, Jie-Oh Lee, Jung Me Hwang, Junsang Ko, Kyoung-Seok Ryu, Kyungeun Lim, Zee-Won Lee |
17877 | 2012-08-22 | Chemical Shifts: 1 set |
Solution structure of a shortened antiterminator hairpin from a Mg2+ riboswitch |
Unusually high-affinity Mg(2+) binding at the AU-rich sequence within the antiterminator hairpin of a Mg(2+) riboswitch.
|
Maximiliane MT Korth, Roland KO Sigel |
17805 | 2012-08-31 | Chemical Shifts: 1 set |
THE HIGH RESOLUTION STRUCTURE OF UBIQUITIN LIKE DOMAIN OF UBLCP1 |
The High Resolution Structure of Ubiquitin Like Dom Ublcp1
|
N Lee, S Ko |
11442 | 2011-08-17 | Chemical Shifts: 1 set |
Backbone 1H, 13C and 15N chemical shift assignments of Hd3a (K31A/E57A) |
14-3-3 proteins act as intracellular receptors for rice Hd3a florigen
|
Atsushi Nakagawa, Chihiro Shimada, Chika Nakashima, Chojiro Kojima, Hiroyuki Tsuji, Izuru Ohki, Ken-ichiro Taoka, Kokoro Hayashi, Ko Shimamoto, Kyoko Furuita, Midori Yamaguchi, Shojiro Tamaki, Tomoko Yanase, Yekti A Purwestri, Yuka Ogaki |
17364 | 2012-06-04 | Chemical Shifts: 1 set |
The solution structure of the PTB Domain of TENC1 in complex with the peptide of DLC1 |
Solution structure of the phosphotyrosine binding (PTB) domain of human tensin2 protein in complex with deleted in liver cancer 1 (DLC1) peptide reveals a novel peptide binding mode.
|
Changdong Liu, Frankie Chi Fat Ko, Guang Zhu, Irene Oi-Lin Ng, Judy Wai Ping Yam, Lihong Chen, Naining Xu |
16908 | 2011-05-02 | Chemical Shifts: 1 set |
The high resolution structure of Ubiquitin like domain of UBLCP1 |
Null
|
Sunggeon Ko, Weontae Lee |
16899 | 2015-06-19 | Chemical Shifts: 1 set |
The solution structure of the mutant of UBL domain of UBLCP1, I5M. |
The solution structure of the mutant of UBL domain of UBLCP1, I5M.
|
Sunggeon Ko, Weontae Lee |
16897 | 2011-04-08 | Chemical Shifts: 1 set |
The solution structure of MTH1821 |
Solution structure of MTH1821, a putative structure homologue to RNA polymerase subunit from Methanobacterium thermoautotrophicum.
|
Adelinda Yee, Chaejoon Cheong, Cheryl H Arrowsmith, Heeyoun Kim, Jihye Yun, Sunggeon Ko, Weontae Lee |
16895 | 2011-05-02 | Chemical Shifts: 1 set |
The solution structure of UBB+1, frameshift mutant of ubiquitin B |
Null
|
Sunggeon Ko, Weontae Lee |
16219 | 2009-10-16 | Chemical Shifts: 1 set |
Solution structure of SH3 domain of PTK6 |
Structural basis of the auto-inhibition mechanism of nonreceptor tyrosine kinase PTK6.
|
Hee-Chul Ahn, Kyo-Eun Ahn, Sunggeon Ko, Weontae Lee, Young-Min Lee |
16138 | 2012-08-07 | Chemical Shifts: 1 set |
NMR solution structure of metal-modified DNA |
Solution structure of a DNA double helix with consecutive metal-mediated base pairs
|
Dominik Boehme, Jens Mueller, N Megger, Roland KO Sigel, Silke Johannsen |
11038 | 2009-04-29 | Chemical Shifts: 1 set |
The DNA binding domain of RTBP1 |
Solution structure of the DNA binding domain of rice telomere binding protein RTBP1
|
Eun Young Yu, Hyun Hee Yoo, Hyun-Soo Cho, In Kwon Chung, Joon Shin, Sunggeon Ko, Toshiyuki Tanaka, Weontae Lee, Woo Taek Kim |
15444 | 2008-08-27 | Chemical Shifts: 1 set |
solution structure of DNA binding domain of ngTRF1 |
Structure of the DNA-binding domain of NgTRF1 reveals unique features of plant telomere-binding proteins
|
Chaejoon Cheong, Hansol Bae, Heeyoung Park, Hyun-Soo Cho, Jung-Sue Byun, Sam-Yong Park, Seong Wook Yang, Sunggeon Ko, Sung-Hoon Jun, Weontae Lee, Woong Han, Woo Taek Kim, Young Ho Jeon |
7151 | 2007-04-18 | Chemical Shifts: 1 set |
Backbone 1H, 13C, and 15N Chemical Shift Assignments for DLC2-SAM |
Solution structures, dynamics, and lipid-binding of the sterile alpha-motif domain of the deleted in liver cancer 2
|
BEN CB KO, DONG-YAN JIN, HONGYAN LI, HONGZHE SUN, Irene OI-LIN NG, KING-LEUNG FUNG, KONG-HUNG SZE, STEPHEN SM CHUNG, YICK-PANG CHING |
6756 | 2007-03-29 | Chemical Shifts: 1 set |
Solution structure of domain 6 from the ai5(gamma) group II intron |
Solution Structure of Domain 6 from a Self-Splicing Group II Intron Ribozyme: A Mg(2+) Binding Site is Located Close to the Stacked Branch Adenosine
|
Michele C Erat, Oliver Zerbe, Roland KO Sigel, Thomas Fox |
6436 | 2009-05-27 | Chemical Shifts: 1 set |
1H, 15N, and 13C resonance assignments of a natively unfolded protein XC4149 from the plant pathogen Xanthomonas campestris pv. campestris 17 |
1H,15N, and 13C resonance assignments of a natively unfolded protein XC4149 from the plant pathogen XCC 17
|
Chao-Yu Yang, Jhe-Le Tu, Jien-Horng Lin, Ko-Hsin Chin, Shan-Ho Chou |
6358 | 2005-04-04 | Chemical Shifts: 1 set |
1H, 13C, and 15N Chemical Shift Assignments for a bacterial BolA-like protein XC975 |
Letter to the Editor: NMR structure note - Solution structure of a bacterial BolA-like protein XC975 from a plant pathogen Xanthomonas Campestris pv. campestris
|
Fu-Yang Lin, Ko-Hsin Chin, Kong-Hung Sze, Ping-Jiang Lyu, Shan-Ho Chou, Yu-Chen Hu |
5590 | 2003-11-24 | Chemical Shifts: 1 set |
1H, 13C and 15N resonance assignments of rice telomere binding domain from Oryza sativa |
Letter to the Editor: 1H, 13C and 15N Resonance Assignments of Rice Telomere Binding Domain from Oryza sativa
|
Eun Yong Yu, In Kwon Chung, Joon Shin, Sung-gun Ko, Toshiyuki Tanaka, Weontae Lee |
4597 | 2000-12-04 | Chemical Shifts: 1 set |
Cystic Fibrosis Transmembrane Conductance Regulator: Solution Structures of Peptides Based on the Phe508 Region, the Most Common Site of Disease-Causing DeltaF508 Mutation |
Cystic Fibrosis Transmembrane Conductance Regulator: Solution Structures of Peptides Based on the Phe508 Region, the Most Common Site of Disease-Causing DeltaF508 Mutation
|
A S Mildvan, M A Massiah, P L Pedersen, Y H Ko |
4596 | 2000-12-04 | Chemical Shifts: 1 set |
Cystic fibrosis transmembrane conductance regulator: solution structures of peptides based on the Phe508 region, the most common site of disease-causing DeltaF508 mutation -- P26 |
Cystic fibrosis transmembrane conductance regulator: solution structures of peptides based on the Phe508 region, the most common site of disease-causing DeltaF508 mutation -- P26
|
A S Mildvan, M A Massiah, P L Pedersen, Y H Ko |
4598 | 2000-12-04 | Chemical Shifts: 1 set |
Cystic Fibrosis Transmembrane Conductance Regulator: Solution Structures of Peptides Based on the Phe508 Region, the Most Common Site of Disease-Causing DeltaF508 Mutation |
Cystic Fibrosis Transmembrane Conductance Regulator: Solution Structures of Peptides Based on the Phe508 Region, the Most Common Site of Disease-Causing DeltaF508 Mutation
|
A S Mildvan, M A Massiah, P L Pedersen, Y H Ko |
4595 | 2000-12-04 | Chemical Shifts: 1 set |
Cystic fibrosis transmembrane conductance regulator: solution structures of peptides based on the Phe508 region, the most common site of disease-causing DeltaF508 mutation -- P25 |
Cystic fibrosis transmembrane conductance regulator: solution structures of peptides based on the Phe508 region, the most common site of disease-causing DeltaF508 mutation
|
A S Mildvan, M A Massiah, P L Pedersen, Y H Ko |