Bihe Hou scite author profile

Bihe Hou

2Publications

16Citation Statements Received

90Citation Statements Given

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Center for Excellence in Molecular Cell Science, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences

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The properties of NodD were affected by mere variation in length within its hinge region

Hou¹,

Li²,

Yang³

et al. 2009

ABBS

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In Rhizobium leguminosarum bv. viciae, NodD, a member of the LysR-type transcriptional regulators, while auto-regulating, activates transcription of other nod genes in the presence of naringenin. A hinge region of NodD was previously identified in our laboratory as a functional region independent of its N-terminal DNA-binding and C-terminal regulatory domain. Further study was carried out to see the possible effect of the length variation in the hinge region on NodD's properties. To our surprise, as many as seven classes of phenotypes were observed. Class I is deficient of activating nodA transcription and abolishes auto-regulation; class II is able to activate nodA transcription independently of naringenin and abolishes auto-regulation; class III retains autoregulating but partial activating ability; class IV is able to activate transcription independently of naringenin and retains auto-regulation; in class V, nodA is transcribed constitutively but the transcription level is drastically down-regulated in the presence of naringenin; in class VI, nodA is transcribed constitutively with higher induction ratio; in class VII, nodA is transcribed constitutively with lower induction ratio. To learn more about the possible mechanism, circular permutation assays were done, which showed that the length variation of the hinge of NodD caused by mutation led to the change in bend angles of nod promoter. This finding should help to get an insight into how transcriptional regulation is mediated by NodD at the molecular level as well as to understand the regulatory system of this important family.

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Site-Specific Fluorescent Labeling Approaches for Naringenin, an Essential Flavonone in Plant Nitrogen-Fixation Signaling Pathways

Chen

Hou

et al. 2008

J. Org. Chem.

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In search of an appropriate position for the fluorescent labeling, six chemically available positions of the flavonone core of naringenin have been examined. A number of azido-containing naringenin derivatives were accordingly prepared in various site-specific fashions, and the mild Cu(I)-catalyzed Huisgen 1,3-dipolar cycloaddition successfully served as the common "Click" labeling tool in the final steps. On the basis of the biological activities of the first batch of labeled compounds, further optimization at the C-6 position of naringenin finally afforded naringenin-flu (27), which acquired 20% of the potency of naringenin and presented good optical properties. Entry of naringenin-flu into living Rhizobium cells was demonstrated by in vitro fluorescent imaging experiments.

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Bihe Hou

The properties of NodD were affected by mere variation in length within its hinge region

Site-Specific Fluorescent Labeling Approaches for Naringenin, an Essential Flavonone in Plant Nitrogen-Fixation Signaling Pathways

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