The role of UK development industry in Brownfield regeneration Vol 1

As part of the SUBR:IM work (www.subrim.org.uk) being undertaken at The College, the research team for this project (Tim Dixon, Yasmin Pocock and Mike Waters) has produced the first two of three volumes covering Stage 2 of the research. Volume 1 examines the results from the national UK developer interviews (carried out in 2004-2005); National Land Use Database (NLUD) analysis (1998-2003); and residential planning permission analysis for Salford/Manchester and Barking & Dagenham (2000-2004) using Estates Gazette Interactive (EGi) data and published information. Volume 1 (of 3): Literature Review, National Developer Interviews, Planning Permission Analysis and NLUD Analysis

The role of UK development industry in Brownfield regeneration Vol 2

As part of the SUBR:IM work (www.subrim.org.uk) being undertaken at The College, the research team for this project (Tim Dixon, Yasmin Pocock and Mike Waters) has produced the first two of three volumes covering Stage 2 of the research. Volume 1 examines the results from the national UK developer interviews (carried out in 2004-2005); National Land Use Database (NLUD) analysis (1998-2003); and residential planning permission analysis for Salford/Manchester and Barking & Dagenham (2000-2004) using Estates Gazette Interactive (EGi) data and published information. Volume 2 covers the sub-regional context for Thames Gateway and Greater Manchester, which form the basis for the case studies (these are to be published as Volume 3 Volume 2 (of 3): Sub-regional context (Thames Gateway and Greater Manchester)

Millennial timescale regeneration in a moss from Antarctica

Mosses, dominant elements in the vegetation of polar and alpine regions, have well-developed stress tolerance features permitting cryptobiosis. However, direct regeneration after longer periods of cryptobiosis has been demonstrated only from herbarium and frozen material preserved for 20 years at most. Recent field observations of new moss growth on the surface of small moss clumps re-exposed from a cold-based glacier after about 400 years of ice cover have been accompanied by regeneration in culture from homogenised material, but there are no reported instances of regrowth occurring directly from older preserved material.

Early membrane estrogenic effects required for full expression of slower genomic actions in a nerve cell line.

Interpretations of steroid hormone actions as slow, nuclear, transcriptional events have frequently been seen as competing against inferences of rapid membrane actions. We have discovered conditions where membrane-limited effects potentiate later transcriptional actions in a nerve cell line. Making use of a two-pulse hormonal schedule in a transfection system, early and brief administration of conjugated, membrane-limited estradiol was necessary but not sufficient for full transcriptional potency of the second estrogen pulse. Efficacy of the first pulse depended on intact signal transduction pathways. Surprisingly, the actions of both pulses were blocked by a classical estrogen receptor (ER) antagonist. Thus, two different modes of steroid hormone action can synergize.

Molecular mechanisms of crosstalk between thyroid hormones and estrogens

Purpose of review Novel analyses of the relations between thyroid hormone receptor signaling and estrogen receptor—dependent mechanisms are timely for two sets of reasons. Clinically, both affect mood and foster neuronal growth and regeneration. Mechanistically, they overlap at the levels of DNA recognition elements, coactivators, and signal transduction systems. Crosstalk between thyroid hormone receptors and estrogen receptors is possibly important to integrate external signals to transcription within neurons. Recent findings It has been shown that reproductive functions, including behaviors, driven by estrogens can be antagonized by thyroid hormones, and it has been argued that such crosstalk is biologically adaptive to ensure optimal reproduction. Transcriptional facilitation during transient transfunction studies show that the interactions between thyroid receptor isoforms and estrogen receptor isoforms depend on cell type and promoter context. Overall, this pattern of interactions assures multiple and flexible means of transcriptional regulation. Surprisingly, in some brain areas, thyroid hormone actions can synergize with estrogenic effects, particularly when nongenomic modes of action are considered, such as kinase activation, which, as has been reported, affect later estrogen receptor—induced genomic events. Summary In summary, recent work with nerve cells has contributed to a paradigm shift in how the molecular and behavioral effects of hormones which act through nuclear receptors are viewed.