Linkage between melanocytic tumor development and early burst of Ret protein expression for tolerance induction in metallothionein-I/ret transgenic mouse lines

Aneuploidy is a hallmark of human cancers, but the effects of aneuploidy on protein expression remain poorly understood. To uncover how chromosome copy number changes influence the cancer proteome, we have conducted an analysis of hundreds of human cancer cell lines with matched copy number, RNA expression, and protein expression data. We found that a majority of proteins exhibit dosage compensation and fail to change by the degree expected based on chromosome copy number alone. We uncovered a variety of gene groups that were recurrently buffered upon both chromosome gain and loss, including protein complex subunits and cell cycle genes. Several genetic and biophysical factors were predictive of protein buffering, highlighting complex post-translational regulatory mechanisms that maintain appropriate gene product dosage. Finally, we established that chromosomal aneuploidy has an unexpectedly moderate effect on the expression of oncogenes and tumor suppressors, demonstrating that these key cancer drivers can be subject to dosage compensation as well. In total, our comprehensive analysis of aneuploidy and dosage compensation across cancers will help identify the key driver genes encoded on altered chromosomes and will shed light on the overall consequences of aneuploidy during tumor development.

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Cryopreservation of Transgenic Mouse Lines

Transgenesis Techniques ◽

10.1385/0-89603-245-0:239 ◽

2003 ◽

pp. 239-243

Author(s):

Kimball O. Pomeroy

Keyword(s):

Transgenic Mouse ◽

Mouse Lines

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Embryo Cryopreservation for Transgenic Mouse Lines

Gene Knockout Protocols ◽

10.1385/1-59259-220-1:397 ◽

2003 ◽

pp. 397-419

Author(s):

Jillian M. Shaw ◽

Magosaburo Kasai

Keyword(s):

Transgenic Mouse ◽

Embryo Cryopreservation ◽

Mouse Lines

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A regulatory region from the mouse Hox-2.2 promoter directs gene expression into developing limbs

Development ◽

10.1242/dev.112.3.807 ◽

1991 ◽

Vol 112 (3) ◽

pp. 807-811 ◽

Cited By ~ 5

Author(s):

K. Schughart ◽

C.J. Bieberich ◽

R. Eid ◽

F.H. Ruddle

Keyword(s):

Gene Expression ◽

Transgenic Mouse ◽

Reporter Gene ◽

Developmental Stages ◽

Regulatory Region ◽

Homeobox Gene ◽

Regulatory Elements ◽

Body Region ◽

Lacz Gene ◽

Mouse Lines

To characterize cis-acting regulatory elements of the murine homeobox gene, Hox-2.2, transgenic mouse lines were generated that contained the LacZ reporter gene under the control of different fragments from the presumptive Hox-2.2 promoter. A promoter region of 3600 base pairs (bp) was identified, which reproducibly directed reporter gene expression into specific regions of developing mouse embryos. At 8.5 days postcoitum (p.c.) reporter gene activity was detected in posterior regions of the lateral mesoderm and, in subsequent developmental stages, expression of the LacZ gene was restricted to specific regions of the developing limb buds and the mesenchyme of the ventrolateral body region. This pattern of Hox-2.2-LacZ expression was found in all transgenic embryos that have been generated with the 3.6 kb promoter fragment (two founder embryos and embryos from five transgenic lines). In addition, embryos from two transgenic mouse lines expressed the reporter gene at low levels in the developing central nervous system (CNS). Our results are consistent with the idea that in addition to their presumptive role in CNS and vertebrae development, Hox-2.2 gene products are involved in controlling pattern formation in developing limbs.

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Characterization of Learning, Motivation, and Visual Perception in Five Transgenic Mouse Lines Expressing GCaMP in Distinct Cell Populations

Frontiers in Behavioral Neuroscience ◽

10.3389/fnbeh.2020.00104 ◽

2020 ◽

Vol 14 ◽

Author(s):

Peter A. Groblewski ◽

Douglas R. Ollerenshaw ◽

Justin T. Kiggins ◽

Marina E. Garrett ◽

Chris Mochizuki ◽

...

Keyword(s):

Visual Perception ◽

Transgenic Mouse ◽

Learning Motivation ◽

Cell Populations ◽

Distinct Cell ◽

Mouse Lines

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Transmission of tauopathy strains is independent of their isoform composition

Nature Communications ◽

10.1038/s41467-019-13787-x ◽

2020 ◽

Vol 11 (1) ◽

Cited By ~ 13

Author(s):

Zhuohao He ◽

Jennifer D. McBride ◽

Hong Xu ◽

Lakshmi Changolkar ◽

Soo-jung Kim ◽

...

Keyword(s):

Human Brain ◽

Transgenic Mouse ◽

Mouse Line ◽

Cell Type ◽

Transgenic Mouse Line ◽

Adult Human ◽

Tau Isoforms ◽

Underlying Mechanisms ◽

Mouse Lines

AbstractThe deposition of pathological tau is a common feature in several neurodegenerative tauopathies. Although equal ratios of tau isoforms with 3 (3R) and 4 (4R) microtubule-binding repeats are expressed in the adult human brain, the pathological tau from different tauopathies have distinct isoform compositions and cell type specificities. The underlying mechanisms of tauopathies are unknown, partially due to the lack of proper models. Here, we generate a new transgenic mouse line expressing equal ratios of 3R and 4R human tau isoforms (6hTau mice). Intracerebral injections of distinct human tauopathy brain-derived tau strains into 6hTau mice recapitulate the deposition of pathological tau with distinct tau isoform compositions and cell type specificities as in human tauopathies. Moreover, through in vivo propagation of these tau strains among different mouse lines, we demonstrate that the transmission of distinct tau strains is independent of strain isoform compositions, but instead intrinsic to unique pathological conformations.

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Sequencing two Tyr::CreER T2 transgenic mouse lines

Pigment Cell & Melanoma Research ◽

10.1111/pcmr.12842 ◽

2019 ◽

Vol 33 (3) ◽

pp. 426-434

Author(s):

Zackie Aktary ◽

Andre Corvelo ◽

Camille Estrin ◽

Lionel Larue

Keyword(s):

Transgenic Mouse ◽

Mouse Lines

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Renal Anemia Model Mouse Established by Transgenic Rescue with an Erythropoietin Gene Lacking Kidney-Specific Regulatory Elements

Molecular and Cellular Biology ◽

10.1128/mcb.00451-16 ◽

2016 ◽

Vol 37 (4) ◽

Cited By ~ 8

Author(s):

Ikuo Hirano ◽

Norio Suzuki ◽

Shun Yamazaki ◽

Hiroki Sekine ◽

Naoko Minegishi ◽

...

Keyword(s):

Gene Expression ◽

Transgenic Mouse ◽

Artificial Chromosome ◽

Regulatory Elements ◽

Renal Anemia ◽

Content Type ◽

Transgenic Expression ◽

Complex Process ◽

Model Mouse ◽

Mouse Lines

ABSTRACT The erythropoietin (Epo) gene is under tissue-specific inducible regulation. Because the kidney is the primary EPO-producing tissue in adults, impaired EPO production in chronic kidney disorders results in serious renal anemia. The Epo gene contains a liver-specific enhancer in the 3′ region, but the kidney-specific enhancer for gene expression in renal EPO-producing (REP) cells remains elusive. Here, we examined a conserved upstream element for renal E po regulation (CURE) region that spans 17.4 kb to 3.6 kb upstream of the Epo gene and harbors several phylogenetically conserved elements. We prepared various Epo gene-reporter constructs utilizing a bacterial artificial chromosome and generated a number of transgenic-mouse lines. We observed that deletion of the CURE region (δCURE) abrogated Epo gene expression in REP cells. Although transgenic expression of the δCURE construct rescued Epo-deficient mice from embryonic lethality, the rescued mice had severe EPO-dependent anemia. These mouse lines serve as an elaborate model for the search for erythroid stimulatory activity and are referred to as AnRED (anemic model with renal EPO deficiency) mice. We also dissected the CURE region by exploiting a minigene harboring four phylogenetically conserved elements in reporter transgenic-mouse analyses. Our analyses revealed that Epo gene regulation in REP cells is a complex process that utilizes multiple regulatory influences.

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