Journal of Genetics and Genomics

Metabolomics through the lens of precision cardiovascular medicine

Sin Man Lam, Yuan Wang, Bowen Li, Jie Du, Guanghou Shui

2017, 44(3): 127-138. doi: 10.1016/j.jgg.2017.02.004

Abstract (79) HTML PDF (1)

Abstract:
Metabolomics, which targets at the extensive characterization and quantitation of global metabolites from both endogenous and exogenous sources, has emerged as a novel technological avenue to advance the field of precision medicine principally driven by genomics-oriented approaches. In particular, metabolomics has revealed the cardinal roles that the environment exerts in driving the progression of major diseases threatening public health. Herein, the existent and potential applications of metabolomics in two key areas of precision cardiovascular medicine will be critically discussed: 1) the use of metabolomics in unveiling novel disease biomarkers and pathological pathways; 2) the contribution of metabolomics in cardiovascular drug development. Major issues concerning the statistical handling of big data generated by metabolomics, as well as its interpretation, will be briefly addressed. Finally, the need for integration of various omics branches and adopting a multi-omics approach to precision medicine will be discussed.

Using MutPred derived mtDNA load scores to evaluate mtDNA variation in hypertension and diabetes in a two-population cohort: The SABPA study

Marianne Venter, Leone Malan, Etresia van Dyk, Joanna L. Elson, Francois H. van der Westhuizen

2017, 44(3): 139-149. doi: 10.1016/j.jgg.2016.12.003

Abstract (69) HTML PDF (3)

Abstract:
Mitochondrial DNA (mtDNA) variation has been implicated in many common complex diseases, but inconsistent and contradicting results are common. Here we introduce a novel mutational load hypothesis, which also considers the collective effect of mainly rare variants, utilising the MutPred Program. We apply this new methodology to investigate the possible role of mtDNA in two cardiovascular disease (CVD) phenotypes (hypertension and hyperglycaemia), within a two-population cohort (n = 363; mean age 45 ± 9 yrs). Very few studies have looked at African mtDNA variation in the context of complex disease, and none using complete sequence data in a well-phenotyped cohort. As such, our study will also extend our knowledge of African mtDNA variation, with complete sequences of Southern Africans being especially under-represented. The cohort showed prevalence rates for hypertension (58.6%) and prediabetes (44.8%). We could not identify a statistically significant role for mtDNA variation in association with hypertension or hyperglycaemia in our cohort. However, we are of the opinion that the method described will find wide application in the field, being especially useful for cohorts from multiple locations or with a variety of mtDNA lineages, where the traditional haplogroup association method has been particularly likely to generate spurious results in the context of association with common complex disease.

Inscuteable maintains type I neuroblast lineage identity via Numb/Notch signaling in the Drosophila larval brain

Huanping An, Wanzhong Ge, Yongmei Xi, Xiaohang Yang

2017, 44(3): 151-162. doi: 10.1016/j.jgg.2017.02.005

Abstract (60) HTML PDF (2)

Abstract:
In the Drosophila larval brain, type I and type II neuroblasts (NBs) undergo a series of asymmetric divisions which give rise to distinct progeny lineages. The intermediate neural progenitors (INPs) exist only in type II NB lineages. In this study, we reveal a novel function of Inscuteable (Insc) that acts to maintain type I NB lineage identity. In insc type I NB clones of mosaic analyses with a repressible cell marker (MARCM), the formation of extra Deadpan (Dpn)⁺ NB-like and GMC-like cells is observed. The lack of Insc leads to the defective localization and segregation of Numb during asymmetric cell division. By the end of cytokinesis, this results in insufficient Numb in ganglion mother cells (GMCs). The formation of extra Deadpan (Dpn)⁺ cells in insc clones is prevented by the attenuation of Notch activity. This suggests that Insc functions through the Numb/Notch signaling pathway. We also show that in the absence of Insc in type I NB lineages, the cellular identity of GMCs is altered where they adopt an INP-like cell fate as indicated by the initiation of Dpn expression accompanied by a transient presence of Earmuff (Erm). These INP-like cells have the capacity to divide multiple times. We conclude that Insc is necessary for the maintenance of type I NB lineage identity. Genetic manipulations to eliminate most type I NBs with overproliferating type II NBs in the larval brain lead to altered circadian rhythms and defective phototaxis in adult flies. This indicates that the homeogenesis of NB lineages is important for the adult's brain function.

A cryptic mitochondrial DNA link between North European and West African dogs

Adeniyi C. Adeola, Sheila C. Ommeh, Jiao-Jiao Song, S. Charles Olaogun, Oscar J. Sanke, Ting-Ting Yin, Guo-Dong Wang, Shi-Fang Wu, Zhong-Yin Zhou, Jacqueline K. Lichoti, Bernard R. Agwanda, Philip M. Dawuda, Robert W. Murphy, Min-Sheng Peng, Ya-Ping Zhang

2017, 44(3): 163-170. doi: 10.1016/j.jgg.2016.10.008

Abstract (87) HTML PDF (4)

Abstract:
Domestic dogs have an ancient origin and a long history in Africa. Nevertheless, the timing and sources of their introduction into Africa remain enigmatic. Herein, we analyse variation in mitochondrial DNA (mtDNA) D-loop sequences from 345 Nigerian and 37 Kenyan village dogs plus 1530 published sequences of dogs from other parts of Africa, Europe and West Asia. All Kenyan dogs can be assigned to one of three haplogroups (matrilines; clades): A, B, and C, while Nigerian dogs can be assigned to one of four haplogroups A, B, C, and D. None of the African dogs exhibits a matrilineal contribution from the African wolf (Canis lupus lupaster). The genetic signal of a recent demographic expansion is detected in Nigerian dogs from West Africa. The analyses of mitochondrial genomes reveal a maternal genetic link between modern West African and North European dogs indicated by sub-haplogroup D1 (but not the entire haplogroup D) coalescing around 12,000 years ago. Incorporating molecular anthropological evidence, we propose that sub-haplogroup D1 in West African dogs could be traced back to the late-glacial dispersals, potentially associated with human hunter-gatherer migration from southwestern Europe.

Identification and analysis of intermediate-size noncoding RNAs in the rhesus macaque fetal brain

Liyuan Zhu, Xiaochao Tan, Wei Liu, Fengbiao Mao, Chao Wu, Junjie Zhou, Xiao Liu, Shuaiyao Lu, Kaili Ma, Bin Yin, Jianjun Luo, Jiangang Yuan, Boqin Qiang, Runsheng Chen, Xiaozhong Peng

2017, 44(3): 171-174. doi: 10.1016/j.jgg.2017.01.003

Abstract (61) HTML PDF (3)

Abstract:

High-efficiency breeding of early-maturing rice cultivars via CRISPR/Cas9-mediated genome editing

Xiufeng Li, Wenjia Zhou, Yuekun Ren, Xiaojie Tian, Tianxiao Lv, Zhenyu Wang, Jun Fang, Chengcai Chu, Jie Yang, Qingyun Bu

2017, 44(3): 175-178. doi: 10.1016/j.jgg.2017.02.001

Abstract (142) HTML PDF (16)

Abstract:

2017 Vol. 44, No. 3