Monomeric TonB and the Ton box are required for the formation of a high-affinity transporter-TonB complex.

The energy-dependent uptake of trace nutrients by Gram-negative bacteria involves the coupling of an outer membrane transport protein to the transperiplasmic protein TonB. In this study, a soluble construct of Escherichia coli TonB (residues 33-239) was used to determine the affinity of TonB for outer membrane transporters BtuB, FecA, and FhuA. Using fluorescence anisotropy, TonB(33-239) was found to bind with high affinity (tens of nanomolar) to both BtuB and FhuA; however, no high-affinity binding to FecA was observed.

Structure of the MLL CXXC domain-DNA complex and its functional role in MLL-AF9 leukemia.

The gene MLL (encoding the protein mixed-lineage leukemia) is the target of chromosomal translocations that cause leukemias with poor prognosis. All leukemogenic MLL fusion proteins retain the CXXC domain, which binds to nonmethylated CpG DNA sites. We present the solution structure of the MLL CXXC domain in complex with DNA, showing how the CXXC domain distinguishes nonmethylated from methylated CpG DNA.

Molecular basis for substrate-dependent transmembrane signaling in an outer-membrane transporter.

Transmembrane signaling events that propagate through receptors and transporters have critical roles in cellular function and regulation. In the Escherichia coli vitamin B(12) transporter, BtuB, substrate binding to the extracellular surface of the protein triggers the unfolding of an energy coupling motif at the periplasmic surface. Here, the molecular interactions mediating this substrate-dependent transmembrane signaling event were investigated in a novel way by combining a two mutant cycle analysis with site-directed spin labeling (SDSL).

The tetramer structure of the Nervy homology two domain, NHR2, is critical for AML1/ETO's activity.

AML1/ETO is the chimeric protein resulting from the t(8;21) in acute myeloid leukemia. The Nervy homology 2 (NHR2) domain in ETO mediates oligomerization and AML1/ETO's interactions with ETO, MTGR1, and MTG16, and with the corepressor molecules mSin3A and HDAC1 and HDAC3. We solved the NHR2 domain structure and found it to be an alpha-helical tetramer.

High resolution structure of the HDGF PWWP domain: a potential DNA binding domain.

Hepatoma Derived Growth Factor (HDGF) is an endogenous nuclear-targeted mitogen that is linked with human disease. HDGF is a member of the weakly conserved PWWP domain family. This 70-amino acid motif, originally identified from the WHSC1 gene, has been found in more than 60 eukaryotic proteins.

CBFbeta allosterically regulates the Runx1 Runt domain via a dynamic conformational equilibrium.

Core binding factors (CBFs) are heterodimeric transcription factors consisting of a DNA-binding CBFalpha subunit and non-DNA-binding CBFbeta subunit. The CBFbeta subunit increases the affinity of the DNA-binding Runt domain of CBFalpha for DNA while making no direct contacts to the DNA. We present evidence for conformational exchange in the S-switch region in a Runt domain-DNA complex that is quenched upon CBFbeta binding.

Structural and functional characterization of Runx1, CBF beta, and CBF beta-SMMHC.

Core binding factors (CBFs) are heterodimeric transcription factors consisting of a DNA-binding CBF alpha subunit and non-DNA-binding CBF beta subunit. DNA binding and heterodimerization is mediated by a single domain in the CBF alpha subunit called the Runt domain, while sequences flanking the Runt domain confer other biochemical activities such as transactivation. On the other hand, the heterodimerization domain in CBF beta is the only functional domain that has been identified in this subunit.

Altered affinity of CBF beta-SMMHC for Runx1 explains its role in leukemogenesis.

Chromosomal translocations involving the human CBFB gene, which codes for the non-DNA binding subunit of CBF (CBF beta), are associated with a large percentage of human leukemias. The translocation inv(16) that disrupts the CBFB gene produces a chimeric protein composed of the heterodimerization domain of CBF beta fused to the C-terminal coiled-coil domain from smooth muscle myosin heavy chain (CBF beta-SMMHC). Isothermal titration calorimetry results show that this fusion protein binds the Runt domain from Runx1 (CBF alpha) with higher affinity than the native CBF beta protein.