scholarly journals In vitro recombination cloning of entire cDNA libraries in Arabidopsis thaliana and its application to the yeast two-hybrid system

2005 ◽  
Vol 5 (3) ◽  
pp. 175-183 ◽  
Author(s):  
Lukas Bürkle ◽  
Svenja Meyer ◽  
Hakan Dortay ◽  
Hans Lehrach ◽  
Alexander Heyl
Keyword(s):  
Arabidopsis Thaliana ◽  
Hybrid System ◽  
Cdna Libraries ◽  
Yeast Two Hybrid ◽  
In Vitro Recombination ◽  
Yeast Two Hybrid System ◽  
Two Hybrid

ralGDS family members interact with the effector loop of ras p21

1994 ◽  
Vol 14 (11) ◽  
pp. 7483-7491
Author(s):  
A Kikuchi ◽  
S D Demo ◽  
Z H Ye ◽  
Y W Chen ◽  
L T Williams
Keyword(s):  
Hybrid System ◽  
Family Members ◽  
Dominant Negative Mutant ◽  
Yeast Two Hybrid ◽  
Amino Acid Homology ◽  
Yeast Two Hybrid System ◽  
Ras P21 ◽  
Two Hybrid ◽  
Interacting Domain

Using a yeast two-hybrid system, we identified a novel protein which interacts with ras p21. This protein shares 69% amino acid homology with ral guanine nucleotide dissociation stimulator (ralGDS), a GDP/GTP exchange protein for ral p24. We designated this protein RGL, for ralGDS-like. Using the yeast two-hybrid system, we found that an effector loop mutant of ras p21 was defective in interacting with the ras p21-interacting domain of RGL, suggesting that this domain binds to ras p21 through the effector loop of ras p21. Since ralGDS contained a region highly homologous with the ras p21-interacting domain of RGL, we examined whether ralGDS could interact with ras p21. In the yeast two-hybrid system, ralGDS failed to interact with an effector loop mutant of ras p21. In insect cells, ralGDS made a complex with v-ras p21 but not with a dominant negative mutant of ras p21. ralGDS interacted with the GTP-bound form of ras p21 but not with the GDP-bound form in vitro. ralGDS inhibited both the GTPase-activating activity of the neurofibromatosis gene product (NF1) for ras p21 and the interaction of Raf with ras p21 in vitro. These results demonstrate that ralGDS specifically interacts with the active form of ras p21 and that ralGDS can compete with NF1 and Raf for binding to the effector loop of ras p21. Therefore, ralGDS family members may be effector proteins of ras p21 or may inhibit interactions between ras p21 and its effectors.

scholarly journals Genetic Analysis of theEscherichia coliFtsZ·ZipA Interaction in the Yeast Two-hybrid System

2001 ◽  
Vol 276 (15) ◽  
pp. 11980-11987 ◽  
Author(s):  
Steven A. Haney ◽  
Elizabeth Glasfeld ◽  
Cynthia Hale ◽  
David Keeney ◽  
Zhizhen He ◽  
...  
Keyword(s):  
Hybrid System ◽  
Enzyme Linked Immunosorbent Assay ◽  
Wild Type ◽  
Yeast Two Hybrid ◽  
Conserved Sequence ◽  
Yeast Two Hybrid System ◽  
C Terminus ◽  
Two Hybrid

The recruitment of ZipA to the septum by FtsZ is an early, essential step in cell division inEscherichia coli. We have used polymerase chain reaction-mediated random mutagenesis in the yeast two-hybrid system to analyze this interaction and have identified residues within a highly conserved sequence at the C terminus of FtsZ as the ZipA binding site. A search for suppressors of a mutation that causes a loss of interaction (ftsZD373G) identified eight different changes at two residues within this sequence.In vitro, wild type FtsZ interacted with ZipA with a high affinity in an enzyme-linked immunosorbent assay, whereas FtsZD373Gfailed to interact. Two mutant proteins examined restored this interaction significantly.In vivo, the alleles tested are significantly more toxic than the wild typeftsZand cannot complement a deletion. We have shown that a fusion, which encodes the last 70 residues of FtsZ in the two-hybrid system, is sufficient for the interaction with FtsA and ZipA. However, when the wild type sequence is compared with one that encodes FtsZD373G, no interaction was seen with either protein. Mutations surrounding Asp-373 differentially affected the interactions of FtsZ with ZipA and FtsA, indicating that these proteins bind the C terminus of FtsZ differently.

scholarly journals PICK1: a perinuclear binding protein and substrate for protein kinase C isolated by the yeast two-hybrid system.

1995 ◽  
Vol 128 (3) ◽  
pp. 263-271 ◽  
Author(s):  
J Staudinger ◽  
J Zhou ◽  
R Burgess ◽  
S J Elledge ◽  
E N Olson
Keyword(s):  
Protein Kinase C ◽  
Protein Kinase ◽  
Hybrid System ◽  
Catalytic Domain ◽  
Yeast Two Hybrid ◽  
Kinase C ◽  
Yeast Two Hybrid System ◽  
Wide Range ◽  
Two Hybrid

Protein kinase C (PKC) plays a central role in the control of proliferation and differentiation of a wide range of cell types by mediating the signal transduction response to hormones and growth factors. Upon activation by diacylglycerol, PKC translocates to different subcellular sites where it phosphorylates numerous proteins, most of which are unidentified. We used the yeast two-hybrid system to identify proteins that interact with activated PKC alpha. Using the catalytic region of PKC fused to the DNA binding domain of yeast GAL4 as "bait" to screen a mouse T cell cDNA library in which cDNA was fused to the GAL4 activation domain, we cloned several novel proteins that interact with C-kinase (PICKs). One of these proteins, designated PICK1, interacts specifically with the catalytic domain of PKC and is an efficient substrate for phosphorylation by PKC in vitro and in vivo. PICK1 is localized to the perinuclear region and is phosphorylated in response to PKC activation. PICK1 and other PICKs may play important roles in mediating the actions of PKC.

scholarly journals Rice Grassy Stunt Tenuivirus Nonstructural Protein p5 Interacts with Itself To Form Oligomeric Complexes In Vitro and In Vivo

2003 ◽  
Vol 77 (1) ◽  
pp. 769-775 ◽  
Author(s):  
Pritsana Chomchan ◽  
Shi-Fang Li ◽  
Yukio Shirako
Keyword(s):  
Hybrid System ◽  
Nonstructural Protein ◽  
Transcription Activator ◽  
Yeast Two Hybrid ◽  
Western Blots ◽  
Yeast Two Hybrid System ◽  
Rice Tissue ◽  
Two Hybrid

ABSTRACT We investigated the interaction of Rice grassy stunt tenuivirus (RGSV) nonstructural protein p5, a protein of 22 kDa encoded on vRNA 5, with all 12 RGSV proteins by using a GAL4 transcription activator-based yeast two-hybrid system. The p5 protein interacted only with itself and not with any other viral protein; the interacting domains were localized within the N-terminal 96 amino acids of p5. The p5-p5 interaction was reproduced in an Sos recruitment-mediated yeast two-hybrid system as well in by far-Western blots. Native p5 protein extracted from RGSV-infected rice tissue was detected in a large complex with a molecular mass of approximately 260 kDa composed of 12 molecules of p5 or a p5 oligomer with an unidentified host factor(s).

scholarly journals Subunit Oligomerization and Substrate Recognition of the Escherichia coli ClpYQ (HslUV) Protease Implicated by In Vivo Protein-Protein Interactions in the Yeast Two-Hybrid System

2003 ◽  
Vol 185 (8) ◽  
pp. 2393-2401 ◽  
Author(s):  
Yi-Ying Lee ◽  
Chiung-Fang Chang ◽  
Chueh-Ling Kuo ◽  
Meng-Ching Chen ◽  
Chien Hung Yu ◽  
...  
Keyword(s):  
Escherichia Coli ◽  
Hybrid System ◽  
Protein Interactions ◽  
Large Subunit ◽  
Protein Protein Interactions ◽  
Yeast Two Hybrid ◽  
Yeast Two Hybrid System ◽  
Two Hybrid

ABSTRACT The Escherichia coli ClpYQ (HslUV) is an ATP-dependent protease that consists of an ATPase large subunit with homology to other Clp family ATPases and a peptidase small subunit related to the proteasomal β-subunits of eukaryotes. Six identical subunits of both ClpY and ClpQ self-assemble into an oligomeric ring, and two rings of each subunit, two ClpQ rings surrounded by single ClpY rings, form a dumbbell shape complex. The ClpYQ protease degrades the cell division inhibitor, SulA, and a positive regulator of capsule transcription, RcsA, as well as RpoH, a heat shock sigma transcription factor. Using the yeast-two hybrid system, we explored the in vivo protein-protein interactions of the individual subunits of the ClpYQ protease involved in self-oligomerization, as well as in recognition of specific substrates. Interactions were detected with ClpQ/ClpQ, ClpQ/ClpY, and ClpY/SulA. No interactions were observed in experiments with ClpY/ClpY, ClpQ/RcsA, and ClpQ/SulA. However, ClpY, lacking domain I (ClpYΔI) was able to interact with itself and with intact ClpY. The C-terminal region of ClpY is important for interaction with other ClpY subunits. The previously defined PDZ-like domains at the C terminus of ClpY, including both D1 and D2, were determined to be indispensable for substrate binding. Various deletion and random point mutants of SulA were also made to verify significant interactions with ClpY. Thus, we demonstrated in vivo hetero- and homointeractions of ClpQ and ClpY molecules, as well as a direct association between ClpY and substrate SulA, thereby supporting previous in vitro biochemical findings.

scholarly journals Functional Analyses of the Pto Resistance Gene Family in Tomato and the Identification of a Minor Resistance Determinant in a Susceptible Haplotype

2002 ◽  
Vol 15 (3) ◽  
pp. 281-291 ◽  
Author(s):  
Jeff H. Chang ◽  
Yin-Shan Tai ◽  
Adriana J. Bernal ◽  
Daniel T. Lavelle ◽  
Brian J. Staskawicz ◽  
...  
Keyword(s):  
Cell Death ◽  
Amino Acid ◽  
Hybrid System ◽  
Dependent Manner ◽  
Wild Type ◽  
Yeast Two Hybrid ◽  
Yeast Two Hybrid System ◽  
A Minor ◽  
Two Hybrid

Pto is a member of a multigene family and encodes a serine/threonine kinase that mediates gene-for-gene resistance to strains of Pseudomonas syringae pv. tomato expressing avrPto. The inferred amino acid sequence of the Pto homologs from both resistant (LpimPth2 to LpimPth4,) and susceptible (LescFen, LescPth2 to LescPth5) haplotypes suggested that most could encode functional serine/threonine kinases. In addition, the activation segments of the homologs are similar in sequence to that of Pto, and some have residues previously identified as required for binding of AvrPto by Pto in the yeast two-hybrid system. The Pto homologs were therefore characterized for transcription, for the ability of their products to interact with AvrPto in the yeast two-hybrid system, for their autophos-phorylation activity, and for their potential to elicit cell death in the presence of and absence of a ligand, as well as their dependence on Prf. LpimPth5, LpimPth4, and LescPth4 were not transcribed at levels detectable by reverse transcription-polymerase chain reaction. The interaction with AvrPto was unique to Pto in the yeast two-hybrid system. LescPth2 autophosphorylated in vitro as a fusion protein. LpimPth2, LpimPth3, LpimPth4, LescPth3, and LescPth4 did not autophosphorylate in vitro. Transient expression of wild-type Fen and wild-type LpimPth3, as well as LescFen, LescPth3, and LescPth5 with perturbations in their P+1 loop caused cell death in Nicotiana benthamiana. LpimPth3 and LescPth3 with amino acid substitutions in the P+1 loop also elicited cell death in tomato; this was dependent on the presence of wild-type Prf. Consequently, some homologs could potentially encode functional resistance proteins. LescPth5 induced cell death specifically in response to expression of AvrPto in tobacco in a Prf-dependent manner; this is consistent with a homolog from a ‘susceptible’ haplotype encoding a minor recognition determinant.

scholarly journals ralGDS family members interact with the effector loop of ras p21.

1994 ◽  
Vol 14 (11) ◽  
pp. 7483-7491 ◽  
Author(s):  
A Kikuchi ◽  
S D Demo ◽  
Z H Ye ◽  
Y W Chen ◽  
L T Williams
Keyword(s):  
Hybrid System ◽  
Family Members ◽  
Dominant Negative Mutant ◽  
Yeast Two Hybrid ◽  
Amino Acid Homology ◽  
Yeast Two Hybrid System ◽  
Ras P21 ◽  
Two Hybrid ◽  
Interacting Domain

Using a yeast two-hybrid system, we identified a novel protein which interacts with ras p21. This protein shares 69% amino acid homology with ral guanine nucleotide dissociation stimulator (ralGDS), a GDP/GTP exchange protein for ral p24. We designated this protein RGL, for ralGDS-like. Using the yeast two-hybrid system, we found that an effector loop mutant of ras p21 was defective in interacting with the ras p21-interacting domain of RGL, suggesting that this domain binds to ras p21 through the effector loop of ras p21. Since ralGDS contained a region highly homologous with the ras p21-interacting domain of RGL, we examined whether ralGDS could interact with ras p21. In the yeast two-hybrid system, ralGDS failed to interact with an effector loop mutant of ras p21. In insect cells, ralGDS made a complex with v-ras p21 but not with a dominant negative mutant of ras p21. ralGDS interacted with the GTP-bound form of ras p21 but not with the GDP-bound form in vitro. ralGDS inhibited both the GTPase-activating activity of the neurofibromatosis gene product (NF1) for ras p21 and the interaction of Raf with ras p21 in vitro. These results demonstrate that ralGDS specifically interacts with the active form of ras p21 and that ralGDS can compete with NF1 and Raf for binding to the effector loop of ras p21. Therefore, ralGDS family members may be effector proteins of ras p21 or may inhibit interactions between ras p21 and its effectors.

scholarly journals Complete protein linkage map between the P2 and P3 non-structural proteins of poliovirus

2007 ◽  
Vol 88 (8) ◽  
pp. 2259-2267 ◽  
Author(s):  
Jiang Yin ◽  
Ying Liu ◽  
Eckard Wimmer ◽  
Aniko V. Paul
Keyword(s):  
Hybrid System ◽  
Viral Rna ◽  
Structural Proteins ◽  
Yeast Two Hybrid ◽  
Replication Complex ◽  
Yeast Two Hybrid System ◽  
Molecular Events ◽  
Complete Protein ◽  
Two Hybrid

All of the non-structural proteins of poliovirus, including their processing precursors, are involved in the replication of the viral RNA genome. These proteins assemble into a replication complex, which also contains the viral RNA and cellular factors. An understanding of how these viral proteins interact with each other would enhance our understanding of the molecular events occurring during poliovirus infection of the cell. Previously, we have employed the yeast two-hybrid system to construct two separate linkage maps for the polioviral P2 and P3 proteins, respectively. In the present study, we have searched for interacting pairs between the P2 and P3 proteins in a similar inducible yeast two-hybrid system. Although, the primary functions of the proteolytic products of the P2 and P3 domains of the polyprotein in the viral life cycle are different, we observed significant interactions between 2CATPase and 3AB; 2Apro and 3A, 3Cpro or 3Dpol; 2B and 3A or 3AB. All of the interactions were measured in the yeast two-hybrid system by exchanging the interacting pairs on the transcription-activation and DNA-binding constructs. In vitro GST pull-down assay suggested that the 2CATPase/3AB interaction involves both ionic and hydrophobic contacts between the two proteins. The possible biological implication of the interactions observed in the yeast two-hybrid system will be discussed.

scholarly journals Functional Studies of the Bacterial Avirulence Protein AvrPto by Mutational Analysis

2001 ◽  
Vol 14 (4) ◽  
pp. 451-459 ◽  
Author(s):  
Jeff H. Chang ◽  
Christian M. Tobias ◽  
Brian J. Staskawicz ◽  
Richard W. Michelmore
Keyword(s):  
Pseudomonas Syringae ◽  
Hybrid System ◽  
Mutational Analysis ◽  
In Planta ◽  
Yeast Two Hybrid ◽  
Mutant Proteins ◽  
Functional Studies ◽  
Yeast Two Hybrid System ◽  
Two Hybrid

Pseudomonas syringae pathovars expressing avrPto are avirulent on plants expressing the resistance gene Pto. Over 85 mutants of avrPto were generated with multiple strategies, and several assays were used to characterize AvrPto function. Only a core of 95 amino acids of the 164 residues was sufficient for binding Pto in the yeast two-hybrid system. Only nine of 65 mutant proteins of AvrPto with amino acid substitutions, created in planta and in vitro, did not interact with Pto in the Gal4 yeast two-hybrid system, suggesting that AvrPto can tolerate many nonconservative substitutions and still interact with Pto. These nine and 12 additional substitution mutants of AvrPto were characterized further. The ability to elicit a hypersensitive response and the effect on pathogenesis in planta for these 21 mutants of AvrPto were strongly correlated with recognition by Pto in the yeast two-hybrid system. Analyses of two proteins with substitutions H54P or D52G/L65P indicated that these residues may be required for delivery into the host cell and protein stability in the bacterial cytoplasm, respectively. The mutants that no longer interacted with Pto and had modified activities in planta were predicted to have changes in their secondary structure.

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