scholarly journals Ferritin light chain gene mutations in two Brazilian families with hereditary hyperferritinemia-cataract syndrome

2017 ◽  
Vol 15 (4) ◽  
pp. 492-495 ◽  
Author(s):  
Roberta Cardoso Petroni ◽  
Susana Elaine Alves da Rosa ◽  
Flavia Pereira de Carvalho ◽  
Rúbia Anita Ferraz Santana ◽  
Joyce Esteves Hyppolito ◽  
...  
Keyword(s):  
Light Chain ◽  
Autosomal Dominant ◽  
Genetic Disorder ◽  
Gene Mutations ◽  
Definitive Diagnosis ◽  
Clinical Suspicion ◽  
Chain Gene ◽  
Nucleotide Polymorphism ◽  
Single Nucleotide ◽  
Light Chain Gene

ABSTRACT Hereditary hyperferritinemia-cataract syndrome is an autosomal dominant genetic disorder associated with mutations in the 5’UTR region of the ferritin light chain gene. These mutations cause the ferritin levels to increase even in the absence of iron overload. Patients also develop bilateral cataract early due to accumulation of ferritin in the lens, and many are misdiagnosed as having hemochromatosis and thus not properly treated. The first cases were described in 1995 and several mutations have already been identified. However, this syndrome is still a poorly understood. We report two cases of unrelated Brazilian families with clinical suspicion of the syndrome, which were treated in our department. For the definitive diagnosis, the affected patients, their parents and siblings were submitted to Sanger sequencing of the 5’UTR region for detection of the ferritin light gene mutation. Single nucleotide polymorphism-like mutations were found in the affected patients, previously described. The test assisted in making the accurate diagnosis of the disease, and its description is important so that the test can be incorporated into clinical practice.

scholarly journals Structure and sequence of the myosin alkali light chain gene expressed in adult cardiac atria and fetal striated muscle.

1988 ◽  
Vol 263 (25) ◽  
pp. 12669-12676 ◽  
Author(s):  
P J Barton ◽  
B Robert ◽  
A Cohen ◽  
I Garner ◽  
D Sassoon ◽  
...  
Keyword(s):  
Light Chain ◽  
Striated Muscle ◽  
Chain Gene ◽  
Light Chain Gene

scholarly journals A Case Report of a Prenatally Missed Mowat-Wilson Syndrome With Isolated Corpus Callosum Agenesis

2021 ◽  
Vol 8 ◽  
pp. 2329048X2110065
Author(s):  
Nesrin Şenbil ◽  
Zeynep Arslan ◽  
Derya Beyza Sayın Kocakap ◽  
Yasemin Bilgili
Keyword(s):  
Corpus Callosum ◽  
Autosomal Dominant ◽  
Genetic Disorder ◽  
Gene Mutations ◽  
Hirschsprung Disease ◽  
Agenesis Of Corpus Callosum ◽  
Whole Exome ◽  
Congenital Cardiac Anomalies ◽  
History Of ◽  
Gene Mutation Analysis

Mowat–Wilson syndrome (MWS) is an autosomal dominant genetic disorder caused by ZEB2 gene mutations, manifesting with unique facial characteristics, moderate to severe intellectual problems, and congenital malformations as Hirschsprung disease, genital and ophthalmological anomalies, and congenital cardiac anomalies. Herein, a case of 1-year-old boy with isolated agenesis of corpus callosum (IACC) in the prenatal period is presented. He was admitted postnatally with Hirschsprung disease (HSCR), hypertelorism, uplifted earlobes, deeply set eyes, frontal bossing, oval-shaped nasal tip, ‘‘M’’ shaped upper lip, opened mouth and prominent chin, and developmental delay. Hence, MWS was primarily considered and confirmed by the ZEB2 gene mutation analysis. His karyotype was normal. He had a history of having a prenatally terminated brother with similar features. Antenatally detected IACC should prompt a detailed investigation including karyotype and microarray; even if they are normal then whole exome sequencing (WES) should be done.

Structure of extrachromosomal circular DNAs generated by immunoglobulin light chain gene rearrangements

1991 ◽  
Vol 27 (1) ◽  
pp. 19-23 ◽  
Author(s):  
Toshiyasu Hirama ◽  
Sunao Takeshita ◽  
Yataroh Yoshida ◽  
Hideo Yamagishi
Keyword(s):  
Light Chain ◽  
Chain Gene ◽  
Gene Rearrangements ◽  
Immunoglobulin Light Chain ◽  
Light Chain Gene ◽  
Circular Dnas

NEUROFERRITINOPATHY IN A JAPANESE FAMILY WITH A DUPLICATION IN THE FERRITIN LIGHT CHAIN GENE

Neurology ◽  
2008 ◽  
Vol 70 (Issue 16, Part 2) ◽  
pp. 1493-1494 ◽  
Author(s):  
E. Ohta ◽  
T. Nagasaka ◽  
K. Shindo ◽  
S. Toma ◽  
K. Nagasaka ◽  
...  
Keyword(s):  
Light Chain ◽  
Chain Gene ◽  
Japanese Family ◽  
Light Chain Gene

Myosin light-chain 1 and 3 gene has two structurally distinct and differentially regulated promoters evolving at different rates

1985 ◽  
Vol 5 (11) ◽  
pp. 3168-3182
Author(s):  
E E Strehler ◽  
M Periasamy ◽  
M A Strehler-Page ◽  
B Nadal-Ginard
Keyword(s):  
Light Chain ◽  
Myosin Light Chain ◽  
Mammalian Species ◽  
In Vitro Transcription ◽  
Chain Gene ◽  
Promoter Regions ◽  
Light Chain Gene ◽  
Direct Initiation

DNA fragments located 10 kilobases apart in the genome and containing, respectively, the first myosin light chain 1 (MLC1f) and the first myosin light chain 3 (MLC3f) specific exon of the rat myosin light chain 1 and 3 gene, together with several hundred base pairs of upstream flanking sequences, have been shown in runoff in vitro transcription assays to direct initiation of transcription at the cap sites of MLC1f and MLC3f mRNAs used in vivo. These results establish the presence of two separate, functional promoters within that gene. A comparison of the nucleotide sequence of the rat MLC1f/3f gene with the corresponding sequences from mouse and chicken shows that: the MLC1f promoter regions have been highly conserved up to position -150 from the cap site while the MLC3f promoter regions display a very poor degree of homology and even the absence or poor conservation of typical eucaryotic promoter elements such as TATA and CAT boxes; the exon/intron structure of this gene has been completely conserved in the three species; and corresponding exons, except for the regions encoding most of the 5' and 3' untranslated sequences, show greater than 75% homology while corresponding introns are similar in size but considerably divergent in sequence. The above findings indicate that the overall structure of the MLC1f/3f genes has been maintained between avian and mammalian species and that these genes contain two functional and widely spaced promoters. The fact that the structures of the alkali light chain gene from Drosophila melanogaster and of other related genes of the troponin C supergene family resemble a MLC3f gene without an upstream promoter and first exon strongly suggests that the present-day MLC1f/3f genes of higher vertebrates arose from a primordial alkali light chain gene through the addition of a far-upstream MLC1f-specific promoter and first exon. The two promoters have evolved at different rates, with the MLC1f promoter being more conserved than the MLC3f promoter. This discrepant evolutionary rate might reflect different mechanisms of promoter activation for the transcription of MLC1f and MLC3f RNA.

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