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1. Effects of Mentha longifolia extract on some blood and immune parameters, and disease resistance against yersiniosis in rainbow trout

Author:
Heydari, M.; Firouzbakhsh, F.; Paknejad, H.
Source:
Aquaculture 2020 v.515 pp. 734586
ISSN:
0044-8486
Subject:
Mentha longifolia,   etc   ; Oncorhynchus mykiss; Yersinia ruckeri; albumins; aquariums; blood serum; complement; disease resistance; erythrocytes; fish; fish diseases; fish feeding; gene expression; genes; hematocrit; hemoglobin; leukocyte count; lysozyme; mucosal immunity; neutrophils; plant extracts; protective effect; protein content; respiratory burst; tumor necrosis factor-alpha; yersiniosis;     Show all 26 Subjects
Abstract:
... longifolia) hydroalcoholic extract on blood parameters, serum, mucosal immune responses, ...
... M. longifolia extract. Also, the expression of lysozyme and TNF-α genes increased ...
... TNF-α genes in fish treated with 0.2% of M. longifolia extract could have resulted ...
DOI:
10.1016/j.aquaculture.2019.734586

2. Draft Genome Sequence of Mentha longifolia and Development of Resources for Mint Cultivar Improvement

Author:
Vining, Kelly J.; Johnson, Sean R.; Ahkami, Amirhossein; Lange, Iris; Parrish, Amber N.; Trapp, Susan C.; Croteau, Rodney B.; Straub, Shannon C.K.; Pandelova, Iovanna; Lange, B. Markus
Source:
Molecular plant 2017 v.10 no.2 pp. 323-339
ISSN:
1674-2052
Subject:
Mentha longifolia,   etc   ; Mentha piperita nothosubsp. piperita; Mentha spicata; Verticillium wilt; breeding; chromosome mapping; cultivars; diploidy; disease resistance; essential oils; fungi; genes; genetic resistance; industry; metabolic engineering; microsatellite repeats; mint; oils; polyploidy;     Show all 19 Subjects
Abstract:
... assemblies for a wilt-resistant South African accession of Mentha longifolia (L.) Huds., ...
... molecular marker development. The M. longifolia genome is a valuable resource for both ...
DOI:
10.1016/j.molp.2016.10.018

3. Active defence by an Australian native host, Lomandra longifolia, provides resistance against Phytophthora cinnamomi

Author:
Islam, Md Tohidul; Rookes, James E.; Cahill, David M.
Source:
Functional plant biology 2017 v.44 no.4 pp. 386-399
ISSN:
1445-4408
Subject:
Lupinus angustifolius; Phytophthora cinnamomi; callose; chlorophyll; disease resistance; gene expression; hydrogen peroxide; indigenous species; leaves; lignin; plant pathogens; root growth; roots; Australia
Abstract:
... Australian native species, Lomandra longifolia Labill., as a resistant species by ...
... inoculation of L. longifolia roots, lesion length and colonisation percentage were ...
... content between controls and inoculated L. longifolia. We then examined three key ...
DOI:
10.1071/FP16266

4. Isolation of a Ve homolog, mVe1, and its relationship to verticillium wilt resistance in Mentha longifolia (L.) Huds

Author:
Vining, Kelly; Davis, Thomas
Source:
Molecular genetics and genomics 2009 v.282 no.2 pp. 173-184
ISSN:
1617-4615
Subject:
Mentha longifolia,   etc   ; Solanum lycopersicum; Verticillium wilt; alleles; diploidy; disease resistance; genotype; phenotype; proteins; tomatoes; wilting;     Show all 11 Subjects
Abstract:
... from the mint diploid model species, Mentha longifolia (Lamiaceae). mVe1 is a ...
... 96.2-99.6% nucleotide identity. We analyzed four M. longifolia populations segregating ...
DOI:
10.1007/s00438-009-0454-6
PubMed:
19424725

5. Evaluation of Verticillium Wilt Resistance in Mentha arvensis and M. longifolia Genotypes

Author:
Dung, Jeremiah K.S.; Schroeder, Brenda K.; Johnson, Dennis A.
Source:
Plant disease 2010 v.94 no.10 pp. 1255-1260
ISSN:
0191-2917
Subject:
Mentha longifolia,   etc   ; Mentha arvensis; essential oils; Verticillium dahliae; plant pathogenic fungi; Verticillium wilt; cultivars; disease resistance; genetic resistance; genotype; germplasm screening; strain differences; host plants; disease severity; mortality; crop yield; disease incidence; rhizomes; regrowth; translocation (plant physiology); aerial parts;     Show all 21 Subjects
Abstract:
... and four M. longifolia genotypes were evaluated for resistance to Verticillium ...
... native spearmint (M. spicata). Root-dip inoculations of M. arvensis and M. longifolia ...
DOI:
10.1094/PDIS-01-10-0062

6. SM09A and SM09B: Romaine Lettuce Breeding Lines Resistant to Dieback and with Improved Shelf Life

Author:
Simko, Ivan; Hayes, Ryan J.; Subbarao, Krishna V.; Sideman, Rebecca Grube
Source:
HortScience 2010 v.45 no.4 pp. 670–672
ISSN:
0018-5345
Subject:
Lactuca sativa var. longifolia,   etc   ; romaine lettuce; vegetable crops; breeding lines; germplasm; germplasm releases; disease resistance; genetic resistance; dieback; storage quality; shelf life; food quality; California;     Show all 13 Subjects
Abstract:
... SM09A and SM09B are F8 romaine breeding lines of lettuce resistant to the dieback disease (caused by Tomato bushy stunt virus and Lettuce necrotic stunt virus) and with good shelf life. SM09B was selected from a cross between 'Darkland' and PI 491224, whereas SM09A was developed from 'Green Towers' × ('Darkland' × PI 491224). Resistance to the disease in both breeding lines is derived from PI 4912 ...
Handle:
10113/45800

7. Development of molecular markers for marker-assisted selection of dieback disease resistance in lettuce (Lactuca sativa)

Author:
Simko, I.; Pechenick, D.A.; McHale, L.K.; Truco, M.J.; Ochoa, O.E.; Michelmore, R.W.; Scheffler, B.E.
Source:
Acta horticulturae 2010 no.859 pp. 401
ISSN:
0567-7572
Subject:
Lactuca sativa var. longifolia,   etc   ; Lactuca sativa var. crispa; leaf lettuce; romaine lettuce; Tomato bushy stunt virus; Tombusvirus; pathogenicity; disease resistance; plant breeding; genetic markers; marker-assisted selection; linkage groups; chromosome mapping; DNA fingerprinting; dominant genes; cultivars; genetic variation; germplasm screening;     Show all 18 Subjects
Abstract:
... Lettuce dieback disease is widespread in commercially grown romaine and leaf-type lettuces, but not in iceberg-type cultivars. The disease is caused by two closely related Tombusviruses: Tomato bushy stunt virus (TBSV) and Lettuce necrotic stunt virus (LNSV). A single dominant gene (Tvr1) on chromosomal linkage group 2 has been found to be responsible for the resistance observed in modern iceberg ...
Handle:
10113/43819

8. Registration of 'Discovery' hard fescue

Author:
Rose-Fricker, C.A.; Fraser, M.L.; Meyer, W.A.
Source:
Crop science 1999 v.39 no.5 pp. 1530-1531
ISSN:
0011-183X
Subject:
Festuca longifolia,   etc   ; disease resistance; cultivars; agronomic traits; crop yield; fungal diseases of plants; Oregon;     Show all 7 Subjects
DOI:
10.2135/cropsci1999.0008rcv

9. Registration of 'Pronghorn' prairie sandreed grass

Author:
Vogel, K.P.; Newell, L.C.; Jacobson, E.T.; Watkins, J.E.; Reece, P.E.; Bauer, D.E.
Source:
Crop science 1996 v.36 no.6 pp. 1712
ISSN:
0011-183X
Subject:
Calamovilfa longifolia,   etc   ; cultivars; agronomic traits; disease resistance; rust diseases; Nebraska; Kansas;     Show all 7 Subjects
DOI:
10.2135/cropsci1996.0011183X003600060050x

10. Registration of 'Aurora' hard fescue

Author:
Meyer, W.A.; Rose-Fricker, C.A.; Funk, C.R.
Source:
Crop science 1991 v.31 no.4 pp. 1088-1089
ISSN:
0011-183X
Subject:
Festuca longifolia,   etc   ; cultivars; disease resistance; agronomic traits; fungal diseases of plants; Oregon;     Show all 6 Subjects
DOI:
10.2135/cropsci1991.0011183X003100040058x

11. Microbial growth in fresh-cut lettuce increases when wound-induced phenolic accumulation is suppressed

Author:
Barros, Margarita; Saltveit, Mikal E.
Source:
Postharvest biology and technology 2013 v.83 pp. 34-39
ISSN:
0925-5214
Subject:
Pectobacterium carotovorum; leaf lettuce; Pseudomonas fluorescens; Lactuca sativa; Pseudomonas syringae; microbial growth; disease resistance; agar; physiological response; chlorogenic acid; anti-infective agents; Erwinia; pigments; Pseudomonas putida; leaves; phenolic compounds
Abstract:
... Wounding lettuce (Lactuca sativa L. Longifolia) leaf mid-rib tissue initiates ...
DOI:
10.1016/j.postharvbio.2013.03.005