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Several Developmental Processes (several + developmental_process)

Distribution by Scientific Domains
Medical Sciences40%
Life Sciences40%

Selected Abstracts

Plant oxylipins: COI1/JAZs/MYC2 as the core jasmonic acid-signalling module

FEBS JOURNAL, Issue 17 2009
Andrea Chini
Jasmonic acid (JA) and its derivates, collectively known as jasmonates (JAs), are essential signalling molecules that coordinate the plant response to biotic and abiotic challenges, in addition to several developmental processes. The COI1 F-box and additional SCF modulators have long been known to have a crucial role in the JA-signalling pathway. Downstream JA-dependent transcriptional re-programming is regulated by a cascade of transcription factors and MYC2 plays a major role. Recently, JAZ family proteins have been identified as COI1 targets and repressors of MYC2, defining the ,missing link' in JA signalling. JA,Ile has been proposed to be the active form of the hormone, and COI1 is an essential component of the receptor complex. These recent discoveries have defined the core JA-signalling pathway as the module COI1/JAZs/MYC2. [source]

The T-box transcription factor Tbx2: Its role in development and possible implication in cancer

IUBMB LIFE, Issue 2 2010
Amaal Abrahams
Abstract Tbx2 is a member of the T-box family of transcription factors that are crucial in embryonic development. Recent studies suggest that T-box factors may also play a role in controlling cell cycle progression and in the genesis of cancer. Tbx2 has been implicated in several developmental processes such as coordinating cell fate, patterning and morphogenesis of a wide range of tissues and organs including limbs, kidneys, lungs, mammary glands, heart, and craniofacial structures. Importantly, Tbx2 is overexpressed in several cancers including melanoma, small cell lung carcinoma, breast, pancreatic, liver, and bladder cancers and can suppress senescence, a cellular process, which serves as a barrier to cancer development. This review presents a state of the art overview of the role and regulation of Tbx2 in early embryonic development and in cancer. © 2009 IUBMB IUBMB Life, 62(2): 92,102, 2010 [source]

Abstracts of the 8th Meeting of the Italian Peripheral Nerve Study Group: 43

JOURNAL OF THE PERIPHERAL NERVOUS SYSTEM, Issue 1 2003
S Amadio
Study aim: the Ebf gene family has been implicated in several developmental processes, ranging from B-cell development to neuronal differentiation. As the murine Ebf2 gene is expressed in numerous sites of nervous system, Ebf2-null mice develop hypogonadotropic hypogonadism, due to defective migration of gonadotropin releasing hormone-synthesizing neurons, and a peripheral neuropathy as well. Therefore, we aimed to study whether electrophysiological tests would be able to detect abnormalities of peripheral nerve function. Methods: 2 groups of mice were studied, which consisted of 8 Ebf2-/- mice and 9 age-matched controls. The sciatic nerve was stimulated at the ankle and at the ischiatic notch; the compound motor action potential (cMAP) was recorded from the paw muscles with a pair of needle electrodes to measure the motor conduction velocity (MCV). Results: MCV mean values were lower in Ebf2-/-(21.8 m/sec; SD 2.9) than in controls (35.2 m/sec; SD 2.6) and the difference was significant (p < 0.001). The mean cMAP amplitude was also decreased in Ebf2-/-(6.2 mV; SD 2.7) as compared to controls (9.3 mV; SD 2.6, p < 0.05). Conclusions: electrophysiological tests demonstrated a sharp decrease of sciatic MCV in Ebf2-/- mouse, as consequence of defective axon sorting, segmental dysmyelination and axonal damage revealed by pathological study. [source]

A RUNX/AML-binding motif residing in a novel 13-bp DNA palindrome may determine the expression of the proximal promoter of the human uPA gene

JOURNAL OF THROMBOSIS AND HAEMOSTASIS, Issue 9 2005
E. KOPF
Summary., Urokinase-type plasminogen activator (uPA) is a multifunctional extracellular serine protease implicated in different events including fibrinolysis, tissue remodeling, and hematopoiesis. The human uPA gene contains a major promoter region at around 2000 bp upstream from the transcription start site (+1), and a second regulatory region spanning nucleotides ,90/+32 within the proximal promoter. Here, an inspection of this region revealed a novel 13-bp palindrome residing at position +8/+20. Interestingly, the palindrome contains the DNA consensus-binding hexamer for the RUNX/AML family of transcription factors that play a role in hematopoiesis, leukemia, and several developmental processes. Measuring the expression for promoter,reporter constructs after transfection revealed that deletion of the palindrome abrogated most of the proximal promoter activity in 293A cell. Additionally, electrophoretic mobility shift assays have shown that the palindrome could bind the RUNX1 component in nuclear extracts of myeloid cell lines exclusively through its RUNX motif. The palindrome was found in five additional human genes, two of which (MYH11 and MLLT1) have been linked to chromosomal rearrangements leading to leukemia. The data presented here have implicated, for the first time, RUNX/AML in the regulation of the uPA gene. The significance of the novel palindrome regarding gene regulation through the RUNX motif deserves further investigation. [source]

Lesions in the mRNA cap-binding gene ABA HYPERSENSITIVE 1 suppress FRIGIDA -mediated delayed flowering in Arabidopsis

THE PLANT JOURNAL, Issue 1 2004
Isabel C. Bezerra
Summary Recessive mutations that suppress the late-flowering phenotype conferred by FRIGIDA (FRI) and FLOWERING LOCUS C (FLC) and which also result in serrated leaf morphology were identified in T-DNA and fast-neutron mutant populations. Molecular analysis showed that the mutations are caused by lesions in the gene encoding the large subunit of the nuclear mRNA cap-binding protein, ABH1 (ABA hypersensitive1). The suppression of late flowering is caused by the inability of FRI to increase FLC mRNA levels in the abh1 mutant background. The serrated leaf morphology of abh1 is similar to the serrate (se) mutant and, like abh1, se is also a suppressor of FRI -mediated late flowering although it is a weaker suppressor than abh1. Unlike se, in abh1 the rate of leaf production and the number of juvenile leaves are not altered. The abh1 lesion affects several developmental processes, perhaps because the processing of certain mRNAs in these pathways is more sensitive to loss of cap-binding activity than the majority of cellular mRNAs. [source]