Skip to main content

Table 1 Summary of transcriptome sequencing and assembly results for Medicago ruthenica cv. Zhilixing

From: Leaf transcriptome analysis of Medicago ruthenica revealed its response and adaptive strategy to drought and drought recovery

Sample

Raw Reads

Clean reads

Clean bases

Error(%)

Q20(%)

Q30(%)

GC(%)

A1

55,346,454

53,622,240

8.04G

0.01

98.04

94.74

41.94

A2

69,779,438

66,713,486

10.01G

0.01

97.71

93.85

41.70

A3

53,467,816

51,701,418

7.76G

0.01

98.02

94.70

41.82

B1

54,893,996

52,827,488

7.92G

0.01

97.84

94.40

41.68

B2

50,361,132

48,787,544

7.32G

0.01

98.05

94.78

41.57

B3

47,012,036

44,637,736

6.7G

0.01

97.75

94.28

41.79

C1

57,055,692

54,689,354

8.2G

0.01

97.87

94.45

41.79

C2

46,967,170

45,379,566

6.81G

0.01

97.95

94.70

41.91

C3

46,963,384

45,217,556

6.78G

0.01

97.70

94.20

41.74

D1

58,915,238

56,358,828

8.45G

0.01

97.88

94.50

41.61

D2

56,481,880

54,745,144

8.21G

0.01

98.00

94.64

41.87

D3

56,008,960

54,319,404

8.15G

0.01

98.07

94.80

41.87

  1. A1, A2 and A3 respectively represent 3 biological replicates of the leaf of non-drought stressed cv. Zhilixing; B1, B2 and B3 respectively represent 3 biological replicates of the leaf of cv. Zhilixing drought-stressed until 9th day; C1, C2 and C3 respectively represent 3 biological replicates of the leaf of cv. Zhilixing drought-stressed until 12th day; D1, D2, and D3 respectively represent 3 biological replicates of the leaf of cv. Zhilixing on drought recovery after 4 days