Luis F. Guzmán scite author profile

Mexico, as the center of origin of avocado (Persea americama Mill.), harbors a wide genetic diversity of this species, whose identification may provide the grounds to not only understand its unique population structure and domestication history, but also inform the efforts aimed at its conservation. Although molecular characterization of cultivated avocado germplasm has been studied by several research groups, this had not been the case in Mexico. In order to elucidate the genetic structure of avocado in Mexico and the sustainable use of its genetic resources, 318 avocado accessions conserved in the germplasm collection in the National Avocado Genebank were analyzed using 28 markers [9 expressed sequence tag-Simple Sequence Repeats (SSRs) and 19 genomic SSRs]. Deviation from Hardy Weinberg Equilibrium and high inter-locus linkage disequilibrium were observed especially in drymifolia, and guatemalensis. Total averages of the observed and expected heterozygosity were 0.59 and 0.75, respectively. Although clear genetic differentiation was not observed among 3 botanical races: americana, drymifolia, and guatemalensis, the analyzed Mexican population can be classified into two groups that correspond to two different ecological regions. We developed a core-collection by K-means clustering method. The selected 36 individuals as core-collection successfully represented more than 80% of total alleles and showed heterozygosity values equal to or higher than those of the original collection, despite its constituting slightly more than 10% of the latter. Accessions selected as members of the core collection have now become candidates to be introduced in cryopreservation implying a minimum loss of genetic diversity and a back-up for existing field collections of such important genetic resources.

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Genome-Wide Association Study in Mexican Holstein Cattle Reveals Novel Quantitative Trait Loci Regions and Confirms Mapped Loci for Resistance to Bovine Tuberculosis

González-Ruiz

Strillacci

Durán-Aguilar

et al. 2019

Animals

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Simple SummaryBovine tuberculosis is an infectious disease of cattle caused by Mycobacterium bovis characterized by the formation of tubercles in any organ or tissue. Bovine tuberculosis represents a significant veterinary and public health problem in many parts of the world. It is zoonotic, transmitted to humans through consumption of infected milk and other cattle products. Although many factors influence infection and progression of the disease, there must be an important host genetic component that explains why some animals get sick and others remain healty. We present evidence of genetic variants associated with resistance to tuberculosis in Mexican Holstein dairy cattle using a case-control approach with a selective DNA pooling. Here, we identified novel quantitative trait loci regions harboring genes involved in Mycobacterium spp. immune response. This is a first screening about resistance to tuberculosis infection on Mexican Holstein cattle based on a dense single nucleotide polymorphism chip. The identified genes belong to both, the already known, and the undisclosed quantitative trait loci regions.AbstractBovine tuberculosis (bTB) is a disease of cattle that represents a risk to public health and causes severe economic losses to the livestock industry. Recently, genetic studies, like genome-wide association studies (GWAS) have greatly improved the investigation of complex diseases identifying thousands of disease-associated genomic variants. Here, we present evidence of genetic variants associated with resistance to TB in Mexican dairy cattle using a case-control approach with a selective DNA pooling experimental design. A total of 154 QTLRs (quantitative trait loci regions) at 10% PFP (proportion of false positives), 42 at 5% PFP and 5 at 1% PFP have been identified, which harbored 172 annotated genes. On BTA13, five new QTLRs were identified in the MACROD2 and KIF16B genes, supporting their involvement in resistance to bTB. Six QTLRs harbor seven annotated genes that have been previously reported as involved in immune response against Mycobacterium spp: BTA (Bos taurus autosome) 1 (CD80), BTA3 (CTSS), BTA 3 (FCGR1A), BTA 23 (HFE), BTA 25 (IL21R), and BTA 29 (ANO9 and SIGIRR). We identified novel QTLRs harboring genes involved in Mycobacterium spp. immune response. This is a first screening for resistance to TB infection on Mexican dairy cattle based on a dense SNP (Single Nucleotide Polymorphism) chip.

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Transcriptome Analysis of Soursop (Annona muricata L.) Fruit under Postharvest Storage Identifies Genes Families Involved in Ripening

Palomino-Hermosillo

Berúmen-Varela

Ochoa-Jiménez

et al. 2022

Plants

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Soursop (Annona muricata L.) is climacteric fruit with a short ripening period and postharvest shelf life, leading to a rapid softening. In this study, transcriptome analysis of soursop fruits was performed to identify key gene families involved in ripening under postharvest storage conditions (Day 0, Day 3 stored at 28 ± 2 °C, Day 6 at 28 ± 2 °C, Day 3 at 15 ± 2 °C, Day 6 at 15 ± 2 °C, Day 9 at 15 ± 2 °C). The transcriptome analysis showed 224,074 transcripts assembled clustering into 95, 832 unigenes, of which 21, 494 had ORF. RNA-seq analysis showed the highest number of differentially expressed genes on Day 9 at 15 ± 2 °C with 9291 genes (4772 up-regulated and 4519 down-regulated), recording the highest logarithmic fold change in pectin-related genes. Enrichment analysis presented significantly represented GO terms and KEGG pathways associated with molecular function, metabolic process, catalytic activity, biological process terms, as well as biosynthesis of secondary metabolites, plant hormone signal, starch, and sucrose metabolism, plant–pathogen interaction, plant–hormone signal transduction, and MAPK-signaling pathways, among others. Network analysis revealed that pectinesterase genes directly regulate the loss of firmness in fruits stored at 15 ± 2 °C.

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Hb S [β6(A3)Glu→Val, GAG>GTG] in Mexican Mestizos: Frequency and Analysis of the 5' β-Globin Haplotype

Guzmán¹,

Perea²,

Magaña³

et al. 2010

Hemoglobin

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Between 1978 and 2009, we studied 1,863 Mexican Mestizo patients with clinical data compatible with a hemoglobinopathy. Of these patients, 382 had some hemoglobin (Hb) abnormality (20.5%), 128 had a sickle cell hemoglobinopathy, representing a general frequency of 6.9%, which is similar to the percentage observed in previous studies on Mexican Mestizos. We analyzed the 5' β-globin haplotype (5'Hp) in 79 unrelated β(S) chromosomes (26 β(S)/β(S), 14 β(S)/β(Thal), nine β(S)/β(A) and four β(S)/β(D)), and four haplotypes were observed: 72.2% CAR 24.1% Benin, 2.5% Senegal and 1.2% Cameroon; the last two are reported for first time in Mexico. In some Latin American populations such as Brazil, the Bantu haplotype predominates, while in others such as Jamaica, the Benin haplotype is the most frequent, showing heterogeneity of African genes as a consequence of different regions involved in the slave trade.

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Expression of heat shock protein genes in Simmental cattle exposed to heat stress

Guzmán¹,

Martínez-Velázquez²,

Villaseñor-González³

et al. 2023

Anim Biosci

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In tropical, subtropical and arid zones, heat stress is the main cause of productivity reduction in cattle. When climate stressors occur, animals are thermal adapted through differential expression of some genes, including HSP family. The aim of this study was to determine levels of expression of HSP60, HSP70 and HSP90 genes in Simmental cattle raised in tropical environments of Mexico. MethodsIn this study, expression of HSP60, HSP70 and HSP90 genes was analyzed in 116 Simmental cattle from three farms with tropical climate located in western Mexico. Animals were sampled twice a day, in the morning and noon. Gene expression was evaluated by qPCR using probes marked with fluorescence. The MIXED procedure of SAS with repeated measures was used for all statistical analysis. ResultsHSP60 gene expression differences were found for sex (p=0.0349). HSP70 gene differences were detected for sampling hour (p=0.0042), farm (p<0.0001), sex (p=0.0476) and the interaction sampling hour x farm (p=0.0002). Gene expression differences for HSP90 were observed for farm (p<0.0001) and year (p=0.0521). HSP70 gene showed to be a better marker of heat stress than HSP60 and HSP90 genes. ConclusionExpression of HSP70 gene in Simmental herds of the tropical region of western Mé xico was different during early morning and noon, but the expression of the HSP60 and HSP90 genes was similar. Identification of resilient animals to heat stress will be useful in the genetic improvement of the Simmental breed.

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Luis F. Guzmán

Genetic Structure and Selection of a Core Collection for Long Term Conservation of Avocado in Mexico

Genome-Wide Association Study in Mexican Holstein Cattle Reveals Novel Quantitative Trait Loci Regions and Confirms Mapped Loci for Resistance to Bovine Tuberculosis

Transcriptome Analysis of Soursop (Annona muricata L.) Fruit under Postharvest Storage Identifies Genes Families Involved in Ripening

Hb S [β6(A3)Glu→Val, GAG>GTG] in Mexican Mestizos: Frequency and Analysis of the 5' β-Globin Haplotype

Expression of heat shock protein genes in Simmental cattle exposed to heat stress

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