Marianna Bellorini

Cloning and expression of human NF-YC

The CCAAT box is an important element in eukaryotic promoters and NF-Y (CBF) is a conserved heterotrimeric protein binding to it. Two subunits, NF-YB and NF-YC, contain a histone-like motif. We cloned the complete cDNA coding for the human NF-YC gene. The ORF codes for a 335 aa protein that shows virtual identity to the rat sequence, confirming the stunning invariance of NF-Y genes across species. We expressed and purified the yeast homology domain of NF-YC in bacteria and performed EMSA together with the corresponding conserved domains of NF-YA and NF-YB, obtaining a CCAAT-binding mini-NF-Y. We evaluated the expression of NF-YC and found that mRNA levels are similar in different human tissues except in testis.

Phylogenetic study of bisexual Artemia using random amplified polymorphic DNA

Study of polymorphisms in the eukaryotic genome is an important way to discover the evolutionary relationships between species. Artemia (Crustacea, Anostraca) offers a very interesting model for evolutionary studies. In fact the genus, distributed all over the world in hundreds of known biotopes, comprises both bisexual sibling species and parthenogenetic populations easily available from the Artemia Reference Center of Ghent. In spite of great interest in it and its extensive use in aquaculture, little is known about relationships between the different species and intraspecific populations. Recently it has been demonstrated that polymorphisms in genomic fingerprints generated by arbitrarily primed polymerase chain reaction (PCR) can distinguish between strains in many organisms. We have used this technique to estimate the phylogenetic relationships existing between 14 populations living in the American continent, in the Mediterranean area, and in China. The principal coordinate analysis (PCO) obtained from 86 random amplified polymorphic DNA (RAPD) markers indicates that the populations analyzed can be divided into homogeneous clusters representing the four known bisexual species—the American A. franciscana and A. persimilis, the Mediterranean A. salina, and the A. species from China.

The major histocompatibility complex class II Ea promoter requires TFIID binding to an initiator sequence.

The major histocompatibility complex (MHC) class II Ea promoter is dependent on the presence of conserved upstream X and Y boxes and of initiator (Inr) sequences. In vitro transcription analysis of the Inr region with linker-scanning mutants pinpoints a functionally essential element that shows homology to the terminal deoxynucleotidyltransferase (TdT) Inr; contrary to the TdT Inr and other Inrs identified so far, the key sequence, between positions +5 and +12, is located within a transcribed area. Swapping the TdT sequence into the corresponding Ea position leads to a fivefold increase in transcription rate, without altering start site selection. Inr-binding proteins LBP-1/CP2 and TIP--a TdT Inr-binding protein unrelated to YY1--recognize the Ea Inr; they interact with overlapping yet distinct sequences around the Cap site, but their binding does not coincide with Ea Inr activity. A good correlation is, rather, found with binding of immunopurified holo-TFIID to this element. TFIID interacts both with Ea TATA-like and Inr sequences, but only the latter is functionally relevant. Unlike TBP, TFIID binds in the absence of TFIIA, indicating a stabilizing role for TBP-associated factors in Ea promoter recognition. Sequence comparison with other mouse and human MHC class II promoters suggests a common mechanism of start site(s) selection for the MHC class II gene family.