While genetic lesions responsible for some Mendelian disorders can be rapidly discovered through massively parallel sequencing (MPS) of whole genomes or exomes, not all diseases readily yield to such efforts. We describe the illustrative case of the simple Mendelian disorder medullary cystic kidney disease type 1 (MCKD1), mapped more than a decade ago to a 2-Mb region on chromosome 1. Ultimately, only by cloning, capillary sequencing, and de novo assembly, we found that each of six MCKD1 families harbors an equivalent, but apparently independently arising, mutation in sequence dramatically underrepresented in MPS data: the insertion of a single C in one copy (but a different copy in each family) of the repeat unit comprising the extremely long (~1.5-5 kb), GC-rich (>80%), coding VNTR in the mucin 1 gene. The results provide a cautionary tale about the challenges in identifying genes responsible for Mendelian, let alone more complex, disorders through MPS

Kirby, Andrew

Gnirke, Andreas

Jaffe, David B.

Barešová, Veronika

Pochet, Nathalie

Blumenstiel, Brendan

Ye, Chun

Aird, Daniel

Stevens, Christine

Robinson, James T.

Cabili, Moran N.

Gat-Viks, Irit

Kelliher, Edward

Daza, Riza

DeFelice, Matthew

Hůlková, Helena

Sovová, Jana

Vylet’al, Petr

Antignac, Corinne

Guttman, Mitchell

Handsaker, Robert E.

Perrin, Danielle

Steelman, Scott

Sigurdsson, Snaevar

Scheinman, Steven J.

Sougnez, Carrie

Cibulskis, Kristian

Parkin, Melissa

Green, Todd

Rossin, Elizabeth

Zody, Michael C.

Xavier, Ramnik J.

Pollak, Martin R.

Alper, Seth L.

Lindblad-Toh, Kerstin

Gabriel, Stacey

Hart, P. Suzanne

Regev, Aviv

Nusbaum, Chad

Kmoch, Stanislav

Bleyer, Anthony J.

Lander, Eric S.

Daly, Mark J.

arXiv

Nick E. Mavromatos

MUCC (Crossref)

Gravitino condensates in the early universe and inflation

We review work on the formation of gravitino condensates via the super-Higgs effect in the early Universe. This is a scenario for both inflating the early universe and breaking local super-symmetry (supergravity), entirely independent of any coupling to external matter. The goldstino mode associated with the breaking of (global) super-symmetry is "eaten" by the gravitino field, which becomes massive (via its own vacuum condensation) and breaks the local supersymmetry (supergravity) dynamically. The most natural association of gravitino condensates with inflation proceeds in an indirect way, via a Starobinsky-inflation-type phase. The higher-order curvature corrections of the (quantum) effective action of gravitino condensates induced by integrating out massive gravitino degrees of freedom in a curved space-time background, in the broken-supergravity phase, are responsible for inducing a scalar mode which inflates the Universe. The scenario is in agreement with Planck data phenomenology in a natural and phenomenologically-relevant range of parameters, namely Grand-Unified-Theory values for the super-symmetry breaking energy scale and dynamically-induced gravitino mass.</p

Mavromatos, Nick E.

King's Research Portal

English

We review work on the formation of gravitino condensates via the super-Higgs effect in the early Universe. This is a scenario for both inflating the early universe and breaking local super-symmetry (supergravity), entirely independent of any coupling to external matter. The goldstino mode associated with the breaking of (global) super-symmetry is “eaten” by the gravitino field, which becomes massive (via its own vacuum condensation) and breaks the local supersymmetry (supergravity) dynamically. The most natural association of gravitino condensates with inflation proceeds in an indirect way, via a Starobinsky-inflation-type phase. The higher-order curvature corrections of the (quantum) effective action of gravitino condensates induced by integrating out massive gravitino degrees of freedom in a curved space-time background, in the broken-supergravity phase, are responsible for inducing a scalar mode which inflates the Universe. The scenario is in agreement with Planck data phenomenology in a natural and phenomenologically-relevant range of parameters, namely Grand-Unified-Theory values for the super-symmetry breaking energy scale and dynamically-induced gravitino mass

EDP Sciences OAI-PMH repository (1.2.0)

Crossref

Mavromatos Nick E.

Directory of Open Access Journals

EPJ Web of Conferences

http://dash.harvard.edu/bitstream/handle/1/11879646/3901305.pdf?sequence=1