Joseph Haimovich scite author profile

An analysis of the sizes and sequence content of nuclear RNA transcripts of the heavy-chain locus in two B-cell lymphomas, 70Z/3 and 38C-13, and in selected hybridoma derivatives of 38C has led to the identification of two distinct precursors of the mRNAs encoding the membrane and secretory forms of mu chain. These precursors, termed Pm1 and Ps1, extend from a common 5' terminus (presumably the cap site) to alternative polyadenylation sites located 3' of the membrane and secretory tailpieces, Pm1 and Ps1 are present in similar amounts in lymphomas, indicating roughly equivalent usage of the two polyadenylation sites, whereas Ps1 much greater than Pm1 in hybridomas, indicating that mature plasma cells produce a trans-acting factor which enhances cleavage at the proximal (muS) site. The lymphomas also synthesize several nonproductive or sterile mu (Smu) transcripts from the second H allele. One class of sterile mu transcripts appears to be initiated about 1 kilobase downstream from the JH4 element. In 70Z, in which the nonproductive H allele has undergone a D1J2 fusion, another initiation site was located about 0.3 kilobase upstream of the D1 element. The sterile mu transcripts exhibit the same regulated termination at alternative polyadenylation sites as the mu mRNA precursors, although their rate of production is not necessarily coupled to that of the productive allele. This analysis has also defined probable processing pathways for productive and sterile components in which there is a 5' leads to 3' order for the excision of the large introns.

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Mode of regulation of immunoglobulin μ- and δ-chain expression varies during B-lymphocyte maturation

Mather

Nelson

Haimovich

et al. 1984

Cell

145

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Building of the Tetraspanin Web: Distinct Structural Domains of CD81 Function in Different Cellular Compartments

Shoham

Rajapaksa

Kuo

et al. 2006

Molecular and Cellular Biology

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The tetraspanin web is composed of a network of tetraspanins and their partner proteins that facilitate cellular interactions and fusion events by an unknown mechanism. Our aim was to unravel the web partnership between the tetraspanin CD81 and CD19, a cell surface signaling molecule in B lymphocytes. We found that CD81 plays multiple roles in the processing, intracellular trafficking, and membrane functions of CD19. Surprisingly, these different roles are embodied in distinct CD81 domains, which function in the different cellular compartments: the N-terminal tail of CD81 has an effect on the glycosylation of CD19; the first transmembrane domain of CD81 is sufficient to support the exit of CD19 from the endoplasmic reticulum, although the large extracellular loop (LEL) of CD81 associates physically with CD19 early during biosynthesis; and finally, the TM2 and TM3 domains of CD81 play a role in the transmission of signals initiated upon engagement of the LEL. The participation of distinct CD81 domains in varied functions may explain the pleiotropic effects of CD81 within the tetraspanin web.

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