Search Soybase HELP

Data Category^?		Search Results
Data Category^?		Text^?	Ontology^?
Gene^?
	Named Gene •LOW		25
QTL^?
	Bi-Parental QTL	7	573
	GWAS QTL	1	28
Publication^?
	Papers	143
Terms Used In This Search^? "Foxglove aphid, primary damage, choice" "foxglove aphid primary damage choice" "foxglove" "aphid" "primary" "damage" "foxgloveaphidprimarydamagechoice" "foxglove_aphid_primary_damage_choice" "foxglove aphid" "primary damage" "choice" "aphid," "damage," "foxgloveaphid,primarydamage,choice" "foxglove_aphid,_primary_damage,_choice" A click on one of the terms in the list above will return only exact lexical matches to the selected term. NOTE: Terms in the above list are machine-generated and may or may not return records if clicked.

Other Soybase Searches Fast Neutron Mutants Pedigree Records Metabolic Pathways Transposable Elements
Browse Soybase News Events Traits Bi-Parental QTL GWAS QTL Genome Browser Genetic Map Tutorials Tools Downloads Contact Us Site Map

Search Results


Foxglove aphid, primary damage, choice
	QTL Name	LG (GmComposite2003)	Start (cM)	End (cM)
	Foxglove aphid, primary damage, choice 1-1	N	21.34000	22.00
	Foxglove aphid, primary damage, choice 1-2	C2	103.90000	106.50
	Foxglove aphid, primary damage, choice 1-3	M	39.51000	41.86
	Foxglove aphid, primary damage, choice 1-4	M	29.69000	35.65
	Foxglove aphid, primary damage, choice 1-5	G	87.36000	92.67
	Foxglove aphid, primary damage, choice 1-6	G	72.27000	80.26
	Foxglove aphid, primary damage, choice 1-7	G	63.90000	73.48

Bi-Parental QTL Related by Ontology
	Al tolerance
		Al tolerance 1-1
		Al tolerance 1-2
		Al tolerance 1-3
		Al tolerance 1-4
		Al tolerance 1-5
		Al tolerance 1-6
		Al tolerance 2-1
		Al tolerance 2-2
		Al tolerance 2-3
		Al tolerance 3-1
		Al tolerance 3-2
		Al tolerance 3-3
		Al tolerance 3-4
		Al tolerance 3-5
		Al tolerance 3-6
		Al tolerance 3-7
		Al tolerance 3-8
		Al tolerance 3-9
	Bean pyralid
		Bean pyralid 1-1
		Bean pyralid 1-2
		Bean pyralid 1-3
		Bean pyralid 1-4
		Bean pyralid 1-5
		Bean pyralid 1-6
		Bean pyralid 1-7
		Bean pyralid 1-8
	Branching
		Branching 1-1
		Branching 1-2
		Branching 1-3
		Branching 1-4
		Branching 1-5
		Branching 1-6
		Branching 1-7
		Branching 2-1
		Branching 3-1
		Branching 3-2
		Branching 3-3
		Branching 3-4
		Branching 3-5
		Branching 4-1
		Branching 4-2
		Branching 4-3
		Branching 4-4
		Branching 5-1
		Branching 5-2
		Branching 5-3
		Branching 5-4
	Canopy wilt
		Canopy wilt 1-1
		Canopy wilt 1-2
		Canopy wilt 1-3
		Canopy wilt 1-4
		Canopy wilt 2-1
		Canopy wilt 2-2
		Canopy wilt 2-3
		Canopy wilt 2-4
		Canopy wilt 2-5
		Canopy wilt 2-6
		Canopy wilt 2-7
		Canopy wilt 3-1
		Canopy wilt 3-2
		Canopy wilt 3-3
		Canopy wilt 3-4
		Canopy wilt 3-5
		Canopy wilt 3-6
		Canopy wilt 3-7
		Canopy wilt 3-8
		Canopy wilt 3-9
		Canopy wilt 3-10
		Canopy wilt 3-11
		Canopy wilt 3-12
		Canopy wilt 3-13
		Canopy wilt 4-1
		Canopy wilt 4-2
		Canopy wilt 4-3
		Canopy wilt 4-4
		Canopy wilt 4-5
		Canopy wilt 4-6
		Canopy wilt 4-7
		Canopy wilt 5-1
		Canopy wilt 5-2
		Canopy wilt 5-3
		Canopy wilt 5-4
		Canopy wilt 6-1
		Canopy wilt 6-2
		Canopy wilt 6-3
		Canopy wilt 6-4
		mqCanopy wilt-001
		mqCanopy wilt-002
		mqCanopy wilt-003
		mqCanopy wilt-005
		mqCanopy wilt-006
		mqCanopy wilt-007
		mqCanopy wilt-008
		mqCanopy wilt-009
		mqCanopy wilt-010
		mqCanopy wilt-011
		mqCanopy wilt-012
		mqCanopy wilt-013
		mqCanopy wilt-014
		mqCanopy wilt-015
		mqCanopy wilt-016
		mqCanopy wilt-017
		mqCanopy wilt-018
		mqCanopy wilt-019
		mqCanopy wilt-020
		mqCanopy wilt-021
		mqCanopy wilt-022
		mqCanopy wilt-023
		mqCanopy wilt-024
		mqCanopy wilt-025
		mqCanopy wilt-026
		mqCanopy wilt-027
	Chlorimuron sensitivity
		Chlorimuron sensitivity 1-1
		Chlorimuron sensitivity 1-2
		Chlorimuron sensitivity 1-3
		Chlorimuron sensitivity 1-7
		Chlorimuron sensitivity 1-8
		Chlorimuron sensitivity 1-9
		Chlorimuron sensitivity 1-10
		Chlorimuron sensitivity 1-11
		Chlorimuron sensitivity 2-1
		Chlorimuron sensitivity 2-3
	Chlorophyll flourescence ABS/RC
		Chlorophyll flourescence ABS/RC 1-1
		Chlorophyll flourescence ABS/RC 1-2
	Chlorophyll flourescence ETo/TRo
		Chlorophyll flourescence ETo/TRo 1-1
		Chlorophyll flourescence ETo/TRo 1-2
		Chlorophyll flourescence ETo/TRo 1-3
	Chlorophyll flourescence PIabs
		Chlorophyll flourescence PIabs 1-1
		Chlorophyll flourescence PIabs 1-2
		Chlorophyll flourescence PIabs 1-3
	Chlorophyll flourescence REo/Eto
		Chlorophyll flourescence REo/Eto 1-1
		Chlorophyll flourescence REo/Eto 1-2
	Chlorophyll flourescence TRo/ABS
		Chlorophyll flourescence TRo/ABS 1-1
		Chlorophyll flourescence TRo/ABS 1-2
		Chlorophyll flourescence TRo/ABS 1-3
	Chlorosis, leaflet Mn induced
		Chlorosis, leaflet Mn induced 1-1
		Chlorosis, leaflet Mn induced 1-2
	Chlorosis, leaflet UV-B induced
		Chlorosis, leaflet UV-B induced 1-1
		Chlorosis, leaflet UV-B induced 1-2
		Chlorosis, leaflet UV-B induced 1-3
		Chlorosis, leaflet UV-B induced 1-4
		Chlorosis, leaflet UV-B induced 1-5
		Chlorosis, leaflet UV-B induced 1-6
		Chlorosis, leaflet UV-B induced 1-7
		Chlorosis, leaflet UV-B induced 2-1
	Common cutworm
		Common cutworm 1-1
		Common cutworm 1-2
		Common cutworm 2-1
	Corn earworm
		Corn earworm 1-1
		Corn earworm 1-2
		Corn earworm 1-3
		Corn earworm 2-1
		Corn earworm 2-2
		Corn earworm 2-3
		Corn earworm 3-1
		Corn earworm 3-2
		Corn earworm 4-1
		Corn earworm 5-1
		Corn earworm 5-2
		Corn earworm 6-1
		Corn earworm 6-2
		Corn earworm 6-3
		Corn earworm 7-1
		Corn earworm 7-2
		Corn earworm 7-3
		Corn earworm 7-4
		Corn earworm 7-5
		Corn earworm 8-1
		Corn earworm 8-2
		Corn earworm 8-3
		Corn earworm 9-1
		Corn earworm 9-2
		Corn earworm 9-3
		Corn earworm 9-4
		Corn earworm 9-5
	Drought tolerance
		Drought tolerance 6-1
		Drought tolerance 6-2
		Drought tolerance 6-3
		Drought tolerance 6-4
	Fe effic
		Fe effic 1-1
		Fe effic 1-2
		Fe effic 1-3
		Fe effic 1-4
		Fe effic 1-5
		Fe effic 3-1
		Fe effic 3-2
		Fe effic 3-3
		Fe effic 3-4
		Fe effic 4-1
		Fe effic 4-2
		Fe effic 4-3
		Fe effic 5-1
		Fe effic 5-2
		Fe effic 6-1
		Fe effic 6-2
		Fe effic 7-1
		Fe effic 7-2
		Fe effic 8-1
		Fe effic 8-2
		Fe effic 8-3
		Fe effic 8-4
		Fe effic 9-1
		Fe effic 9-2
		Fe effic 9-3
		Fe effic 9-4
		Fe effic 9-5
		Fe effic 10-1
		Fe effic 10-2
		Fe effic 10-3
		Fe effic 11-1
		Fe effic 11-2
		Fe effic 11-3
		Fe effic 12-1
		Fe effic 12-2
		Fe effic 13-1
		Fe effic 13-2
		Fe effic 13-3
		Fe effic 14-1
	Flood tolerance
		Flood tolerance 1-1
		Flood tolerance 2-1
		Flood tolerance 3-1
		Flood tolerance 3-2
		Flood tolerance 4-1
		Flood tolerance 4-2
		Flood tolerance 4-3
		Flood tolerance 4-4
		Flood tolerance 4-5
		Flood tolerance 4-6
		Flood tolerance 4-7
		Flood tolerance 4-8
		Flood tolerance 4-9
		Flood tolerance 4-10
		Flood tolerance 4-11
		Flood tolerance 4-12
		Flood tolerance 4-13
		Flood tolerance 4-14
		Flood tolerance 6-1
		Flood tolerance 6-2
		Flood tolerance 6-3
		Flood tolerance 6-4
		Flood tolerance 6-5
		Flood tolerance 7-1
		Flood tolerance 7-2
		Flood tolerance 7-3
		Flood tolerance 7-4
	Flooding yield index
		Flooding yield index 1-1
		Flooding yield index 1-2
		Flooding yield index 1-3
		Flooding yield index 1-4
	Foxglove aphid, primary damage, choice
		Foxglove aphid, primary damage, choice 1-1
		Foxglove aphid, primary damage, choice 1-2
		Foxglove aphid, primary damage, choice 1-3
		Foxglove aphid, primary damage, choice 1-4
		Foxglove aphid, primary damage, choice 1-5
		Foxglove aphid, primary damage, choice 1-6
		Foxglove aphid, primary damage, choice 1-7
	Foxglove aphid, primary damage, no choice
		Foxglove aphid, primary damage, no choice 1-1
		Foxglove aphid, primary damage, no choice 1-2
		Foxglove aphid, primary damage, no choice 1-3
	Foxglove aphid, total damage, choice
		Foxglove aphid, total damage, choice 1-1
		Foxglove aphid, total damage, choice 1-2
		Foxglove aphid, total damage, choice 1-3
	Foxglove aphid, total damage, no choice
		Foxglove aphid, total damage, no choice 1-1
		Foxglove aphid, total damage, no choice 1-2
	Internode length
		Internode length 1-1
		Internode length 1-2
		Internode length 1-3
		Internode length 1-4
		Internode length 1-5
		Internode length 1-6
		Internode length 1-7
		Internode length 1-8
		Internode length 1-9
		Internode length 1-10
		Internode length 1-11
		Internode length 1-12
		Internode length 1-13
		Internode length 1-14
		Internode length 1-15
		Internode length 1-16
		Internode length 2-1
		Internode length 2-2
		Internode length 2-3
		Internode length 2-4
		Internode length 2-5
		Internode length 2-6
		Internode length 2-7
		Internode length 2-8
		Internode length 2-9
		Internode length 2-10
		Internode length 2-11
		Internode length 2-12
	Japanese beetle resistance
		Japanese beetle resistance 1-1
		Japanese beetle resistance 1-2
		Japanese beetle resistance 1-3
		Japanese beetle resistance 1-4
		Japanese beetle resistance 1-5
		Japanese beetle resistance 1-6
		Japanese beetle resistance 1-7
		Japanese beetle resistance 1-8
	Lateral root size, variable P
		Lateral root size, variable P 1-1
	Leaf Damage, ozone, 2nd trifoliate leaf
		Leaf Damage, ozone, 2nd trifoliate leaf 1-1
	Leaf Damage, ozone, 3rd trifoliate leaf
		Leaf Damage, ozone, 3rd trifoliate leaf 1-1
	Leaf Damage, ozone, 3rd-5th trifoliate leaves
		Leaf Damage, ozone, 3rd-5th trifoliate leaves 1-2
	Leaf Damage, ozone, 4th trifoliate leaf
		Leaf Damage, ozone, 4th trifoliate leaf 1-1
	Leaf Damage, ozone, 5th trifoliate leaf
		Leaf Damage, ozone, 5th trifoliate leaf 1-1
		Leaf Damage, ozone, 5th trifoliate leaf 1-2
		Leaf Damage, ozone, 5th trifoliate leaf 1-3
		Leaf Damage, ozone, 5th trifoliate leaf 1-4
	Leaf Damage, ozone, 6th trifoliate leaf
		Leaf Damage, ozone, 6th trifoliate leaf 1-1
		Leaf Damage, ozone, 6th trifoliate leaf 1-2
	Leaflet shape, UV-B induced
		Leaflet shape, UV-B induced 1-1
		Leaflet shape, UV-B induced 1-10
		Leaflet shape, UV-B induced 1-11
		Leaflet shape, UV-B induced 2-1
		Leaflet shape, UV-B induced 10-2
		Leaflet shape, UV-B induced 10-3
		Leaflet shape, UV-B induced 10-4
		Leaflet shape, UV-B induced 10-5
		Leaflet shape, UV-B induced 10-6
		Leaflet shape, UV-B induced 10-7
		Leaflet shape, UV-B induced 10-8
		Leaflet shape, UV-B induced 10-9
	Necrosis, root Mn induced
		Necrosis, root Mn induced 1-1
		Necrosis, root Mn induced 1-2
		Necrosis, root Mn induced 1-3
		Necrosis, root Mn induced 1-4
	Plant damage, UV-B induced
		Plant damage, UV-B induced 1-1
		Plant damage, UV-B induced 1-2
		Plant damage, UV-B induced 1-3
		Plant damage, UV-B induced 1-4
		Plant damage, UV-B induced 1-5
		Plant damage, UV-B induced 1-6
		Plant damage, UV-B induced 1-7
		Plant damage, UV-B induced 1-8
		Plant damage, UV-B induced 1-9
		Plant damage, UV-B induced 2-1
	Pod borer
		Pod borer 1-1
		Pod borer 1-2
		Pod borer 1-3
	Rag
		Rag 1-1
		Rag 1-2
		Rag 2-1
		Rag 2-2
		Rag 3-1
		Rag 3-2
		Rag 4-1
		Rag 4-2
		Rag 4-3
	Root area
		Root area 1-1
		Root area 1-2
		Root area 1-3
		Root area 2-1
		Root area 2-2
		Root area 3-1
	Root area development
		Root area development 1-1
		Root area development 1-2
	Root area, coarse
		Root area, coarse 1-1
	Root area, fine + Rhizobia
		Root area, fine plus Rhizobia 1-1
	Root area, fine - Rhizobia
		Root area, fine minus Rhizobia 1-1
	Root area, medium
		Root area, medium 1-1
		Root area, medium 1-2
	Root area, variable P
		Root area, variable P 3-1
		Root area, variable P 3-2
		Root area, variable P 3-3
	Root density, lateral
		Root density, lateral 1-1
		Root density, lateral 2-1
		Root density, lateral 2-2
		Root density, lateral 2-3
		Root density, lateral 2-4
		Root density, lateral 3-1
	Root diameter
		Root diameter 1-1
		Root diameter 1-2
		Root diameter 1-3
		Root diameter 1-4
	Root diameter change
		Root diameter change 1-1
		Root diameter change 1-2
		Root diameter change 1-3
		Root diameter change 1-4
	Root length
		Root length 1-1
		Root length 1-2
		Root length 1-3
		Root length 1-4
		Root length 2-1
	Root length development
		Root length development 1-1
		Root length development 1-2
	Root length, + Rhizobia
		Root length plus Rhizobia 1-1
	Root length, coarse
		Root length, coarse 1-1
	Root length, fine
		Root length, fine 1-1
	Root length, fine + Rhizobia
		Root length, fine plus Rhizobia 1-1
	Root length, medium
		Root length, medium 1-1
	Root length, primary
		Root length, primary 1-1
		Root length, primary 1-2
		Root length, primary 1-3
		Root length, primary 2-1
		Root length, primary 2-2
		Root length, primary 2-3
		Root length, primary 3-1
		Root length, primary 3-2
		Root length, primary 3-3
		Root length, primary 3-4
		Root length, primary 3-5
		Root length, primary 4-1
		Root length, primary 5-1
	Root length, variable P
		Root length, variable P 2-1
		Root length, variable P 2-2
		Root length, variable P 2-3
	Root morphology
		Root morphology 1-1
		Root morphology 1-2
		Root morphology 1-3
		Root morphology 1-4
		Root morphology 1-5
	Root to Shoot weight ratio
		Root to Shoot weight ratio 1-1
		Root to Shoot weight ratio 2-1
		Root to Shoot weight ratio 2-2
	Root to Shoot weight ratio, variable P
		Root to Shoot weight ratio, variable P 3-1
	Root volume
		Root volume 1-1
		Root volume 1-2
		Root volume 1-3
		Root volume 2-1
		Root volume 2-2
	Root volume, coarse
		Root volume, coarse 1-1
	Root volume, fine
		Root volume, fine 1-1
	Root volume, fine + Rhizobia
		Root volume, fine plus Rhizobia 1-1
	Root volume, medium
		Root volume, medium 1-1
		Root volume, medium 1-2
	Root weight
		Root weight 1-1
		Root weight 1-2
		Root weight 1-3
		Root weight 3-1
	Root weight, dry
		Root weight, dry 1-1
		Root weight, dry 1-2
		Root weight, dry 2-1
		Root weight, dry 2-2
		Root weight, dry 2-3
		Root weight, dry 3-1
		Root weight, dry 3-2
		Root weight, dry 3-3
		Root weight, dry 3-4
		Root weight, dry 4-1
		Root weight, dry 4-2
	Root weight, dry, variable P
		Root weight, dry, variable P 1-1
		Root weight, dry, variable P 1-2
		Root weight, dry, variable P 1-3
		Root weight, dry, variable P 1-4
		Root weight, dry, variable P 1-5
		Root weight, dry, variable P 1-6
		Root weight, dry, variable P 1-7
		Root weight, dry, variable P 1-8
		Root weight, dry, variable P 1-9
		Root weight, dry, variable P 1-10
		Root weight, dry, variable P 1-11
		Root weight, dry, variable P 1-12
		Root weight, dry, variable P 1-13
		Root weight, dry, variable P 1-14
		Root weight, dry, variable P 1-15
		Root weight, dry, variable P 1-16
		Root weight, dry, variable P 4-1
		Root weight, dry, variable P 4-2
		Root weight, dry, variable P 4-3
	Root weight, fresh
		Root weight, fresh 1-1
		Root weight, fresh 1-2
	Root width, primary
		Root width, primary 1-1
		Root width, primary 2-1
	Salt tolerance
		Salt tolerance 1-1
		Salt tolerance 3-1
		Salt tolerance 3-2
		Salt tolerance 3-3
		Salt tolerance 3-4
		Salt tolerance 4-1
		Salt tolerance 4-2
		Salt tolerance 5-1
		Salt tolerance 6-1
		Salt tolerance 7-1
		Salt tolerance 7-2
		Salt tolerance 7-3
		Salt tolerance 7-4
		Salt tolerance 7-5
		Salt tolerance 8-1
		Salt tolerance 8-2
		Salt tolerance 8-3
		Salt tolerance 8-4
		Salt tolerance 9-1
	Seed winter hardiness
		Seed winter hardiness 1-1
		Seed winter hardiness 1-2
		Seed winter hardiness 1-3
		Seed winter hardiness 2-1
		Seed winter hardiness 2-2
		Seed winter hardiness 2-3
	Shoot fresh to dry weight ratio
		Shoot fresh to dry weight ratio 1-1
		Shoot fresh to dry weight ratio 1-2
		Shoot fresh to dry weight ratio 1-3
	Shoot length
		Shoot length 1-1
	Shoot weight
		Shoot weight 1-1
		Shoot weight 1-2
		Shoot weight 1-3
		Shoot weight 3-1
		Shoot weight 3-2
		Shoot weight 3-3
		Shoot weight 3-4
		Shoot weight 4-1
		Shoot weight 4-2
		Shoot weight 4-3
		Shoot weight 4-4
		Shoot weight 4-5
	Shoot weight, dry
		Shoot weight, dry 1-1
		Shoot weight, dry 1-2
		Shoot weight, dry 1-3
		Shoot weight, dry 2-1
		Shoot weight, dry 2-2
		Shoot weight, dry 3-1
		Shoot weight, dry 3-2
		Shoot weight, dry 4-1
		Shoot weight, dry 4-2
		Shoot weight, dry 4-3
		Shoot weight, dry 4-4
		Shoot weight, dry 4-5
		Shoot weight, dry 5-1
		Shoot weight, dry 5-2
		Shoot weight, dry 5-3
		Shoot weight, dry 5-4
		Shoot weight, dry 6-1
	Shoot weight, dry, variable P
		Shoot weight, dry, variable P 1-1
		Shoot weight, dry, variable P 1-2
		Shoot weight, dry, variable P 1-3
		Shoot weight, dry, variable P 1-4
		Shoot weight, dry, variable P 1-5
		Shoot weight, dry, variable P 1-6
		Shoot weight, dry, variable P 1-7
		Shoot weight, dry, variable P 1-8
		Shoot weight, dry, variable P 1-9
		Shoot weight, dry, variable P 6-1
		Shoot weight, dry, variable P 6-2
		Shoot weight, dry, variable P 6-3
	Shoot weight, fresh
		Shoot weight, fresh 1-1
		Shoot weight, fresh 1-2
		Shoot weight, fresh 1-3
		Shoot weight, fresh 1-4
	Stem diameter, main
		Stem diameter, main 1-1
		Stem diameter, main 1-2
		Stem diameter, main 1-3
	Stem length, main
		Stem length, main 2-1
		Stem length, main 2-2
		Stem length, main 2-3
		Stem length, main 3-1
		Stem length, main 3-2
	Stem weight, dry
		Stem weight, dry 1-1
		Stem weight, dry 1-2
		Stem weight, dry 1-3
		Stem weight, dry 2-1
		Stem weight, dry 2-2
		Stem weight, dry 2-3
	WUE
		WUE 1-1
		WUE 1-2
		WUE 1-3
		WUE 1-4
		WUE 1-5
		WUE 1-6
		WUE 2-1
		WUE 2-2
		WUE 2-3
	Whitefly resistance
		Whitefly resistance 1-1
		Whitefly resistance 1-2
		Whitefly resistance 1-3
		Whitefly resistance 1-4
		Whitefly resistance 1-5
		Whitefly resistance 1-6
		Whitefly resistance 1-7
		Whitefly resistance 1-8
	pH sensitivity
		pH sensitivity 1-1
		pH sensitivity 1-2
		pH sensitivity 1-3
		pH sensitivity 1-4

GWAS QTL
	Soybean aphid
		Soybean aphid 1

GWAS QTL Related by Ontology
	Al Tolerance
		Al tolerance 1
	Branch Number, Main Stem
		Branch number, main stem 1
	Branching
		Branching 1
	Drought Tolerance
		Drought tolerance 1
	Interbranch Length
		Interbranch length 1
	Internode Length
		Internode length 1
	Iron Deficiency Chlorosis
		Iron deficiency chlorosis 2
		Iron deficiency chlorosis 3
		Iron deficiency chlorosis 4
	Mexican Bean Beetle
		Mexican bean beetle 1
	Potato Leafhopper
		Potato leafhopper 1
	Root Length
		Root length 1
	Root Length Dist
		Root length dist 1
	Root Surface Area
		Root surface area 1
	Root Surface Area Dist
		Root surface area dist 1
	Root Thickness Dist
		Root thickness dist 1
	Root Volume
		Root volume 1
	Salt Tolerance
		Salt tolerance 1
	Soybean Aphid
		Soybean aphid 1
	Soybean Looper
		Soybean looper 1
	Stem Diameter, Main
		Stem diameter, main 1
		Stem diameter, main 2
	Stem Shape, Main
		Stem shape, main 1
	Tap Root Length
		Tap root length 1
	Velvetbean Caterpillar
		Velvetbean caterpillar 1
	WUE
		WUE 1
		WUE 2
		WUE 3

Genes Related by Ontology
	AHAS1
	AHAS2
	AHAS3
	AHAS4
	ALS-1
	ALS-2
	ALS-3
	ALS-4
	ALS1
	ALS2
	ALS3
	ALS4
	KASII-A
	KASII-B
	KASIII-1
	KASIII-2
	KASIII-3
	UF3GT
	UF3GT1-1
	UF3GT1-2
	UF3GT1-3
	UGT78K2-1
	UGT79A6-1
	UGT79B30
	UGT79B30-1

Papers
	Acosta and Malek 1981 "Symptomatology and histopathology of soybean roots infected by Pratylenchus scribneri and Pratylenchus alleni."
	All 1988 "Fall armyworm (Lepidoptera: Noctuidae) infestations in no-tillage cropping systems."
	All et al. 1989 "Screening soybean genotypes in the greenhouse for resistance to insects."
	Benscher et al. 1996 "A strain of soybean mosaic virus infecting Passiflora spp. in Colombia."
	Bol 2003 "Alfalfa mosaic virus: coat protein-dependent initiation of infection"
	Braxton and Gilreath 1988 "Differential injury by lesser cornstalk borer (Lepidoptera: Pyralidae) in soybeans of different growth stages."
	Broadway and Duffey 1986 "Plant proteinase inhibitors: mechanism of action and effect on the growth and digestive physiology of larval Heliothis zea and Spodoptera exiqua."
	Brunt and Kenten 1974 "Cowpea mild mottle, a newly recognized virus infecting cowpea (Vigna unguiculata) in Ghana"
	Carling et al. 1994 "Characterization of anastomosis group 11 (AG-11) of Rhizoctonia solani"
	Chang et al. 2017a "Characterization of Insect Resistance Loci in the USDA Soybean Germplasm Collection Using Genome-Wide Association Studies"
	Clark and Perry 2002 "Transmissibility of field isolates of soybean viruses by Aphis glycines"
	Clemente et al. 2000 "Progeny analysis of glyphosate selected transgenic soybeans derived from Agrobacterium-mediated transformation"
	Cornelious et al. 2005 "Identification of QTLs underlying water-logging tolerance in soybean"
	Costa et al. 2018 "Genome-wide identification of ascorbate-glutathione cycle gene families in soybean (Glycine max) reveals gene duplication events"
	Cregan et al. 1999B "Two simple sequence repeat markers to select for soybean cyst nematode resistance conditioned by the rhg1 locus"
	Cregan et al. 2001 "Primary Trisomics and SSR Markers as Tools to Associate Chromosomes with Linkage Groups in Soybean"
	Damsteegt and Hewings 1987 "Relationships between Aulacorthum solani and soybean dwarf virus: effect of temperature on transmission."
	Di et al. 1996 "Production of transgenic soybean lines expressing the bean pod mottle virus coat protein precursor gene."
	Eckel et al. 1992A "Soybean growth and development alternations caused by Helicoverpa zea (Boddie) feeding"
	Eckel et al. 1992B "Soybean growth and development alternations caused by Helicoverpa zea (Boddie) feeding."
	Elden and Lambert 1992 "Mechanisms of potato leafhopper resistance in soybean lines isogenic for pubescence type."
	Eskandari et al. 2013b "Genetic control of soybean seed oil: II. QTL and genes that increase oil concentration without decreasing protein or with increased seed yield"
	Faris and Griffin 1990 "Extent and pattern of early soybean seedling colonization by Fusarium oxysporum and F. solani in naturally infested soil"
	Ferdous et al. 2006 "QTL Analysis of Resistance to Soybean Cyst Nematode Race 3 in Soybean Cultivar Toyomusume"
	Gangrade and Singh 1976 "Effect of stemfly, Melanagromyza phaseoli (Tryon), on yield of pods and grains of soybeans in India"
	Gardner et al. 2001 "Physical Map Location of the Rps1-k Allele in Soybean"
	Ge et al. 2010a "Global transcriptome profiling of wild soybean (Glycine soja) roots under NaHCO3 treatment."
	Gillman et al. 2014A "Deletions of the SACPD-C locus elevate seed stearic acid levels but also result in fatty acid and morphological alterations in nitrogen fixing nodules"
	Gilman et al. 1982 "Resistance in soybeans glycine-max to the southern green stink bug nezara-viridula"
	Glover and Schapaugh 2002 "Inheritance of resistance to pendimethalin herbicide induced stem damage in soybean"
	Graham 2016a "Functional annotation of soybean gene models"
	Gu et al. 2002 "Diversity among isolates of Bean pod mottle virus"
	Hajimorad and Hill 2001 "Rsv1-mediated resistance against Soybean mosaic virus-N is hypersensitive response-independent at inoculation site, but has the potential to initiate a hypersensitive response-like mechanism"
	Hammond and Pedigo 1981 "Effects of artificial and insect defoliation by the green cloverworm Plathypena scabra on water loss from excised soybean leaves."
	Harris et al. 2015a "Soybean Quantitative Trait Loci conditioning Soybean Rust-Induced Canopy Damage"
	Hart et al. 1988 "Comparison of three techniques to evaluate advanced breeding lines of soybean for leaf-feeding resistance to corn earworm (Lepidoptera: Noctuidae)."
	Held and Robinson 1990 "Survey of current distribution of Rotylenchulus reniformis in the United States"
	Herbert and Mack 1987 "Identification of lesser cornstalk borer damage to soybeans."
	Hill et al. 2001 "First report of transmission of Soybean mosaic virus and Alfalfa mosaic virus by Aphis glycines in the New World"
	Hina et al. 2020 "High-Resolution Mapping in Two RIL Populations Refines Major QTL Hotspot Regions for Seed Size and Shape in Soybean (Glycine max L.)"
	Hunt et al. 2000 "A re-examination of economic injury levels for potato leafhopper (Homoptera : Cicadellidae) on soybean"
	Iizuka and Yunoki. 1974 "Peanut stunt virus isolated from soybeans, Glycine max Merr"
	Ilarslan et al. 1997 "Cytology and genetics of a tissue culture-derived soybean genic male-sterile, female-sterile."
	Iverson et al. 2001 "Induction of soybean resistance to the Mexican bean beetle (Coleoptera : Coccinellidae)"
	Jones and Sullivan 1978 "Susceptibility of certain soybean cultivars to damage by stink bugs [primarily Nezara viridula, Acrosternum hilare, and Euschistus spp.]"
	Jun et al. 2012 "Genetic mapping revealed two loci for soybean aphid resistance in PI 567301B"
	Jun et al. 2013 "Genetic mapping of three quantitative trait loci for soybean aphid resistance in PI 567324"
	Kenty et al. 1996 "Inheritance of resistance to the soybean looper in soybean."
	Kester et al. 1984 "Mechanisms of resistance in soybean (Glycine max (L.) Merrill) genotype PI171444 to the southern green stink bug, Nezara viridula (L.) (Hemiptera:Pentatomidae)."
	Khalid and Markov 1995 "Virus diseases of soybean in Bulgaria"
	Kilen and Lambert 1998 "Genetic control of insect resistance in soybean germplasm PI417061"
	Kilen et al. 1977 "Evaluation of early generation soybeans for resistance to soybean looper [Pseudoplusia includens]"
	Kim et al. 2012C "Divergence of flowering genes in soybean"
	Klos et al. 2000 "Molecular markers useful for detecting resistance to brown stem rot in soybean"
	Kong et al.2019 "GmEXLB1, a soybean expansin-like B gene, alters root architecture to improve phosphorus acquisition in Arabidopsis"
	Koning et al. 2001 "Infection of Soybean with Soybean mosaic virus Increases Susceptibility to Phomopsis spp. Seed Infection"
	Koning et al. 2002 "Soybean mosaic virus (SMV) and the SMV Resistance Gene (Rsv1): Influence on Phomopsis spp. Seed Infection in an Aphid Free Environment"
	Lam and Pedigo 2001 "Effect of trichome density on soybean pod feeding by adult bean leaf beetles (Coleoptera : Chrysomelidae)"
	Lambert and Hamer 1988 "Evaluation of 10 soybean cultivars for relative levels of damage by two insect species."
	Lambert and Kilen 1989 "Influence and performance of soybean lines isogenic for pubescence type on oviposition preference and egg distribution by corn earworm (Lepidoptera: Noctuidae)."
	Latham et al. 2001 "Cucumber mosaic cucumovirus infection of cool-season crop, annual pasture, and forage legumes: susceptibility, sensitivity, and seed transmission"
	Lee et al. 1990 "Quantitative survivorship analysis of the velvetbean caterpillar (Lepidoptera: Noctuidae) pupae in soybean fields in Louisiana."
	Lee et al. 2015b "Detection of novel QTLs for foxglove aphid resistance in soybean"
	Lee et al. 2016A "Positional mapping and identification of novel quantitative trait locus responsible for UV-B radiation tolerance in soybean [Glycine max�(L.) Merr.]"
	Lindermayr et al. 2002A "Divergent members of a soybean (Glycine max L.) 4 coumarate:coenzyme A ligase gene family Primary structures, catalytic properties, and differential expression"
	Lindsey and Cairns 1971 "Pathogenicity of the lesion nematode, Pratylenchus brachyurus, on six soybean cultivars"
	Link and Costa 1974 "Importance of the subperiod of bloom and pod development in soybean damage caused by Nezara viridula (L.)"
	Long and Todd 2001 "Effect of crop rotation and cultivar resistance on seed yield and the soybean cyst nematode in full-season and double-cropped soybean"
	Lopes et al. 1997 "Genetic gain and correlations among traits for stink bug resistance in soybeans"
	Ma et al. 1995 "Genetic characteristics of two genes for resistance to soybean mosaic virus in PI486355 soybean."
	Macedo et al. 2003 "Photosynthetic responses of soybean to soybean aphid (Homoptera: Aphididae) injury"
	Maughan et al. 2000 "Identification of quantitative trait loci controlling sucrose content in soybean (Glycine max)"
	McAusiane 1996 "Influence of leaf pubescence on ovipositional preference of Bemisia argentifolii (Homoptera: Aleyrodidae) on soybean"
	McPherson et al. 1979 "Evaluation of four stink bug species Nezara viridula, Acrosternum hilare, Euschistus servus, Euschistus tristigmus from three genera affecting soybean yield and quality in Louisiana."
	McWilliams 1984 "Effects of tobacco budworm (Lepidoptera: Noctuidae) infestations on pod damage and yield loss in soybean [Heliothis virescens]."
	Mebrahtu et al. 1990 "Genetic study of resistance to the Mexican bean beetle in soybean lines."
	Melching et al. 1989 "Effects of duration, frequency, and temperature of leaf wetness periods on soybean rust."
	Meng et al. 2011 "QTL underlying the resistance to soybean aphid (Aphis glycines Matsumura) through isoflavone-mediated antibiosis in soybean cultivar 'Zhongdou 27'"
	Mian et al. 1998 "Performance of frogeye leaf spot-resistant and -susceptible near-isolines of soybean."
	Micinski et al. 1982 "Evaluation of three-cornered alfalfa hopper damage in commercial soybean varieties."
	Moore and Mueller 1976 "Biological observations of the threecornered alfalfa hopper [Spissistilus festinus] on soybean and three weed species [Cyperus esculentus, Xanthium pensylvanicum, Sida spinosa]"
	Muckenschnabel et al. 2001 "Markers for oxidative stress associated with soft rots in French beans(Phaseolus vulgaris) infected by Botrytis cinerea"
	Mueller et al. 2003 "Response of commercially developed soybean cultivars and the ancestral soybean lines to Fusarium solani f. sp glycines"
	Nault et al. 1992 "Resistance in vegetative and reproductive stages of a soybean breeding line to three defoliating pests(Lepidoptera: Noctuidae)"
	Noe 1993 "Damage functions and population changes of Hoplolaimus columbus on cotton and soybean."
	Oh 1987 "Effects of leaf maturity on the disease progress of Septoria brown spot in soybean"
	Orf et al. 1999A "Genetics of soybean agronomic traits: I. Comparison of three related recombinant inbred populations"
	Parker et al. 1975 "Soybean yields and lance nematode [Hoplolaimus columbus] populations as affected by subsoiling, fertility, and nematicide treatments"
	Pouwels et al. 2002 "Cowpea mosaic virus: effects on host cell processes"
	Powell and Lambert 1993 "Soybean genotype effects on bigeyed bug feeding on corn earworm in the laboratory."
	Priolli et al. 2015a "Association mapping of oil content and fatty acid components in soybean"
	Qiu et al. 1999 "RFLP markers associated with soybean cyst nematode resistance and seed composition in a 'Peking' x 'Essex' population."
	Qui et al. 1997 "Genetic and molecular characterization of resistance to Heterodera glycines race isolates 1, 3 and 5 in Peking."
	Rebois and Golden 1985 "Pathogenicity and reproduction of Pratylenchus agilis in field microplots of soybeans, corn, tomato, or corn-soybean cropping systems."
	Ren et al. 2000 "Relationship between soybean pubescence density and soybean mosaic virus field spread"
	Rizal and Karki 2011 "Alcohol dehydrogenase (ADH) activity in soybean (Glycine max [L.] Merr.) under flooding stress"
	Roane et al. 1985 "Inheritance of reaction to peanut mottle virus in soybean P.I.96983"
	Roy et al. 1989 "Sudden death syndrome of soybean: Fusarium solani as incitant and relation of Heterodera glycines to disease severity."
	Schuh 1993 "Influence of assessment time and modeling approach on the relationship between temperature-leaf wetness periods and disease parameters of Septoria glycines on soybeans."
	Sharma and Norris 1991B "Comparative feeding preference food intake and utilization by the cabbage looper (Lepidoptera: Noctuidae) on three legume species."
	Sharma1995 "Resistance to Rotylenchulus reniformis, Heterodera cajani, and Meloidogyne javanica in accessions of Cajanus platycarpus"
	Shatters and Vander Meer 2000 "Characterizing the interaction between fire ants (Hymenoptera: Formicidae) and developing soybean plants"
	Shim et al. 2015A "Detection of quantitative trait loci controlling UV-B resistance in soybean"
	Silva et al. 2001B "Differential aluminum tolerance in soybean: An evaluation of the role of organic acids"
	Song et al. 2010b "Identification of QTL underlying somatic embryogenesis capacity of immaure embryos in soybean (Glycine max (L.) Merr.)"
	SoyBase "Inferred by SoyBase curators"
	Sparks et al. 1987 "Threecornered alfalfa hopper's late-season damage to soybeans."
	Stewart et al. 1996 "Genetic transformation, recovery, and characterization of fertile soybean transgenic for a synthetic Bacillus thuringiensis cryIAc gene"
	Studham and MacIntosh 2013a "Multiple Phytohormone Signals Control the Transcriptional Response to Soybean Aphid Infestation in Susceptible and Resistant Soybean Plants"
	Takahashi et al. 1980 "Studies on virus diseases and causal viruses of soybean in Japan."
	Tenhaken and Ruebel 1997 "Salicylic acid is needed in hypersensitive cell death in soybean but does not act as a catalase inhibitor"
	Terauchi et al. 2001 "Comparison of complete nucleotide sequences of genomic RNAs of four Soybean dwarf virus strains that differ in their vector specificity and symptom production"
	Tinius et al. 1986 "A greenhouse method of screening soybeans for resistance to Fusarium wilt."
	Todd 1982 "Effects of stinkbug damage on soybean quality."
	Tyler et al. 1996 "Chemotactic preferences and strain variation in the response of Phytophthora sojae zoospores to host isoflavones"
	Tyler et al. 1996 "Chemotactic preferences and strain variation in the response of Phytophthora sojae zoospores to host isoflavones."
	Underwood et al. 2000 "Induced resistance to Mexican bean beetles in soybean: variation among genotypes and lack of correlation with constitutive resistance"
	Vargo et al. 1978 "Induced resistance to ozone injury of soybean by Tobacco ringspot virus"
	Varma et al. 1997 "Influence of the amount of blackgram mottle virus in different tissues on transmission through the seeds of Vigna mungo"
	Vuong et al. 2011 "Confirmation of quantitative trait loci for resistance to multiple-HG types of soybean cyst nematode (Heterodera glycines Ichinohe)"
	Walker et al. 2000 "Field evaluation of soybean engineered with a synthetic cry1Ac transgene for resistance to corn earworm, soybean looper, velvetbean caterpillar (Lepidoptera : Noctuidae), and lesser cornstalk borer (Lepidoptera : Pyralidae)"
	Wang and Ghabrial 2002 "Effect of aphid behavior on efficiency of transmission of Soybean mosaic virus by the soybean-colonizing aphid, Aphis glycines"
	Wang et al. 2001 "Loci underlying resistance to Race 3 of soybean cyst nematode in Glycine soja plant introduction 468916"
	Wang et al. 2012 "Dissection of two soybean QTL conferring partial resistance to Phytophthora sojae through sequence and gene expression analysis"
	Wang et al. 2012A "Dissection of two soybean QTL conferring partial resistance to Phytophthora sojae through sequence and gene expression analysis"
	Wang et al. 2017 "Drought tolerance conferred in soybean (Glycine max. L) by GmMYB84, a novel R2R3-MYB transcription factor."
	Wang et al. 2017 "Drought tolerance conferred in soybean (Glycine max. L) by GmMYB84, a novel R2R3-MYB transcription factor."
	Warrington et al. 2015 "QTL for seed protein and amino acids in the Benning _ Danbaekkong soybean population"
	Warwick and Demski 1988 "Susceptibility and resistance of soybeans to peanut stripe virus"
	Weiser et al. 1987 "Response of tolerant and susceptible soybean cultivars to Columbia lance nematode."
	Winter et al. 2007 "QTL associated with horizontal resistance to soybean cyst nematode in Glycine soja PI464925B"
	Xu et al. 2000 "Primary trisomics in soybean: Origin, identification, breeding behavior, and use in linkage mapping"
	Yang et al. 1990C "Analysis of epidemics of Rhizoctonia aerial blight of soybean in Louisiana"
	Yesudas et al. 2010a "Identification of QTL in soybean underlying resistance to herbivory by Japanese beetles (Popillia japonica, Newman)"
	Yim et al. 2015 "Using RNA-Seq Data to evaluate Reference Genes Suitable for gene expression studies in soybean"
	Zhang et al. 2009 "Molecular mapping of soybean aphid resistance gense in PI 567541B"
	Zhang et al. 2009a "Detection of quantitative trait loci for phosphorus deficiency tolerance at soybean seedling stage"
	Zhang et al. 2016a "Genome-Wide Association Study of Resistance to Soybean Cyst Nematode (Heterodera glycines) HG Type 2.5.7 in Wild Soybean (Glycine soja)"
	Zhang et al. 2020 "The salt-induced transcription factor GmMYB84 confers salinity tolerance in soybean."
	Zhao et al. 2008 "Identification of QTL underlying the resistance of soybean to pod borer, Leguminivora glycinivorella (Mats.) obraztsov, and correlations with plant, pod and seed traits"
	Zhao et al. 2020 "Genome-wide analysis of the glucose-6-phosphate dehydrogenase family in soybean and functional identification of GmG6PDH2 involvement in salt stress"
	Zhu et al. 2014 "Soybean (Glycine max) expansin gene superfamily origins: segmental and tandem duplication events followed by divergent selection among subfamilies"
	Zou et al. 2003B "Association of the yellow leaf (y10) mutant to soybean chromosome 3"

Help With Searching

Results of a search at SoyBase are presented in two complementary ways.

Text match
- The user-submitted search term is used to find exact lexical matches to the name or description of data objects in SoyBase (QTL, genes, etc.). If an exact match is not found, and when the search term was two or more words, then a further search is done using the individual words. These text-based matches are reported in the Text column of the results table.
Ontology match
- The goal of the ontology search is to identify data objects in SoyBase that are related to the search term but which might not have the exact search word(s) in their name or description. Data in SoyBase are tagged using a soybean-specific ontology termed a SOYnumber (SOY#). The user-submitted search term is used to search this SoyBase ontology for an exact match. If an exact match is not found, and when the search term was two or more words, the individual words are used in an additional search. Once a match is found its SOY# is used to traverse the ontology tree to identify related terms. These terms are then used to find SoyBase objects that are related to those directly identified by the search term. These ontology-based matches are reported in the Ontology column of the results table.
  
  Occasionally unrelated SoyBase data objects will be reported in the Ontology-based results along with the correctly identified ones. This is an unavoidable consequence of the the way we have structured the underlying trait, structure and development ontologies at SoyBase. For example a search for 'protein' also returns 'oil'-related objects since both are seed components.

Data Category	Search Was Performed Against
Genetic Marker	Genetic Markers (SNPs, SSRs, etc.).
Gene	Gene records (ex. Glyma.15g026400, Fad2-1).
QTL	Bi-Parental QTL and GWAS QTL collections.
Germplasm Collections	The Induced Mutant and Uniform Field Trial records.
Publications	Paper records and abstracts held within the Soybase data set.
Sitemap, News & Tutorials	SoyBase Sitemap, News archive, Upcoming meetings and Tutorials.

As an example of how these two searching capabilities can be helpful, a search for 'oil' will return those QTL that contain the word 'oil' in their name ('Seed oil', 'Seed oil to protein ratio', etc.) in the QTL line of the Text column. The Ontology column will contain these QTL along with the related QTL 'Seed palmitate', 'Seed oleic', etc.

Note: Because of the idiosyncratic ways that authors name phenotypic and developmental traits it is always advisable to look through the Ontology-based results, even when the submitted search term seems unambiguous. This can reveal additional SoyBase objects that might have been missed using exact text matching.

Funded by the USDA-ARS. Developed by the USDA-ARS SoyBase and Legume Clade Database group at the Iowa State University, Ames, IA

U.S. Public Domain

Help With Searching

Text match

Ontology match